99 human secreted proteins

ABSTRACT

The present invention relates to human secreted polypeptides, and isolated nucleic acid molecules encoding said polypeptides, useful for diagnosing and treating allergic and asthmatic disorders. Antibodies that bind these polypeptides are also encompassed by the present invention. Also encompassed by the invention are vectors, host cells, and recombinant and synthetic methods for producing said polynucleotides, polypeptides, and/or antibodies. The invention further encompasses screening methods for identifying agonists and antagonists of polynucleotides and polypeptides of the invention. The present invention further encompasses methods and compositions for inhibiting or enhancing the production and function of the polypeptides of the present invention.

RELATED APPLICATIONS

This application is a continuation-in-part of PCT/US02/09239, filed Mar.26, 2002, which in turn claims benefit of the following: Application::Continuity Type:: Parent Application:: Parent Filing Date::PCT/US02/09239 Continuation-in-part of 10/105,299 Mar. 26, 200210/105,299 Non-provisional of US60/278,650 Mar. 27, 2001 10/105,299Continuation-in-part of US09/950,082 Sep. 12, 2001 US09/950,082Non-provisional of US60/278,650 Mar. 27, 2001 US09/950,082Continuation-in-part of PCT/US00/06043 Mar. 09, 2000 US00/06043Non-provisional of US60/167,061 Nov. 23, 1999 US00/06043 Non-provisionalof US60/124,146 Mar. 12, 1999 US09/950,082 Continuation-in-part ofPCT/US00/06012 Mar. 09, 2000 US00/06012 Non-provisional of US60/166,989Nov. 23, 1999 US00/06012 Non-provisional of US60/124,093 Mar. 12, 1999US09/950,082 Continuation-in-part of PCT/US00/06058 Mar. 09, 2000US00/06058 Non-provisional of US60/168,654 Dec. 03, 1999 US00/06058Non-provisional of US60/124,145 Mar. 12, 1999 US09/950,082Continuation-in-part of PCT/US00/06044 Mar. 09, 2000 US00/06044Non-provisional of US60/168,661 Dec. 03, 1999 US00/06044 Non-provisionalof US60/124,099 Mar. 12, 1999 US09/950,082 Continuation-in-part ofPCT/US00/06059 Mar. 09, 2000 US00/06059 Non-provisional of US60/168,622Dec. 03, 1999 US00/06059 Non-provisional of US60/124,096 Mar. 12, 1999US09/950,082 Continuation-in-part of PCT/US00/06042 Mar. 09, 2000US00/06042 Non-provisional of US60/168,663 Dec. 03, 1999 US00/06042Non-provisional of US60/124,143 Mar. 12, 1999 US09/950,082Continuation-in-part of PCT/US00/06014 Mar. 09, 2000 US00/06014Non-provisional of US60/168,665 Dec. 03, 1999 US00/06014 Non-provisionalof US60/138,598 Jun. 11, 1999 US00/06014 Non-provisional of US60/124,095Mar. 12, 1999 US09/950,082 Continuation-in-part of PCT/US00/06013 Mar.09, 2000 US00/06013 Non-provisional of US60/168,662 Dec. 03, 1999US00/06013 Non-provisional of US60/138,626 Jun. 11, 1999 US00/06013Non-provisional of US60/125,360 Mar. 19, 1999 US09/950,082Continuation-in-part of PCT/US00/06049 Mar. 09, 2000 US00/06049Non-provisional of US60/168,667 Dec. 03, 1999 US00/06049 Non-provisionalof US60/138,574 Jun. 11, 1999 US00/06049 Non-provisional of US60/124,144Mar. 12, 1999 US09/950,082 Continuation-in-part of PCT/US00/06057 Mar.09, 2000 US00/06057 Non-provisional of US60/168,666 Dec. 03, 1999US00/06057 Non-provisional of US60/138,597 Jun. 11, 1999 US00/06057Non-provisional of US60/124,142 Mar. 12, 1999 US09/950,082Continuation-in-part of PCT/US00/06824 Mar. 16, 2000 US00/06824Non-provisional of US60/168,664 Dec. 03, 1999 US00/06824 Non-provisionalof US60/125,359 Mar. 19, 1999 US09/950,082 Continuation-in-part ofPCT/US00/06765 Mar. 16, 2000 US00/06765 Non-provisional of US60/169,906Dec. 10, 1999 US00/06765 Non-provisional of US60/126,051 Mar. 23, 1999US09/950,082 Continuation-in-part of PCT/US00/06792 Mar. 16, 2000US00/06792 Non-provisional of US60/169,980 Dec. 10, 1999 US00/06792Non-provisional of US60/125,362 Mar. 19, 1999 US09/950,082Continuation-in-part of PCT/US00/06830 Mar. 16, 2000 US00/06830Non-provisional of US60/169,910 Dec. 10, 1999 US00/06830 Non-provisionalof US60/125,361 Mar. 19, 1999 US09/950,082 Continuation-in-part ofPCT/US00/06782 Mar. 16, 2000 US00/06782 Non-provisional of US60/169,936Dec. 10, 1999 US00/06782 Non-provisional of US60/125,812 Mar. 23, 1999US09/950,082 Continuation-in-part of PCT/US00/06822 Mar. 16, 2000US00/06822 Non-provisional of US60/169,916 Dec. 10, 1999 US00/06822Non-provisional of US60/126,054 Mar. 23, 1999 US09/950,082Continuation-in-part of PCT/US00/06791 Mar. 16, 2000 US00/06791Non-provisional of US60/169,946 Dec. 10, 1999 US00/06791 Non-provisionalof US60/125,815 Mar. 23, 1999 US09/950,082 Continuation-in-part ofPCT/US00/06828 Mar. 16, 2000 US00/06828 Non-provisional of US60/169,616Dec. 08, 1999 US00/06828 Non-provisional of US60/125,358 Mar. 19, 1999US09/950,082 Continuation-in-part of PCT/US00/06823 Mar. 16, 2000US00/06823 Non-provisional of US60/169,623 Dec. 08, 1999 US00/06823Non-provisional of US60/125,364 Mar. 19, 1999 US09/950,082Continuation-in-part of PCT/US00/06781 Mar. 16, 2000 US00/06781Non-provisional of US60/169,617 Dec. 08, 1999 US00/06781 Non-provisionalof US60/125,363 Mar. 19, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07505 Mar. 22, 2000 US00/07505 Non-provisional of US60/172,410Dec. 17, 1999 US00/07505 Non-provisional of US60/126,502 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/07440 Mar. 22, 2000US00/07440 Non-provisional of US60/172,409 Dec. 17, 1999 US00/07440Non-provisional of US60/126,503 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07506 Mar. 22, 2000 US00/07506Non-provisional of US60/172,412 Dec. 17, 1999 US00/07506 Non-provisionalof US60/126,505 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07507 Mar. 22, 2000 US00/07507 Non-provisional of US60/172,408Dec. 17, 1999 US00/07507 Non-provisional of US60/126,594 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/07535 Mar. 22, 2000US00/07535 Non-provisional of US60/172,413 Dec. 17, 1999 US00/07535Non-provisional of US60/126,511 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07525 Mar. 22, 2000 US00/07525Non-provisional of US60/171,549 Dec. 22, 1999 US00/07525 Non-provisionalof US60/126,595 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07534 Mar. 22, 2000 US00/07534 Non-provisional of US60/171,504Dec. 22, 1999 US00/07534 Non-provisional of US60/126,598 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/07483 Mar. 22, 2000US00/07483 Non-provisional of US60/171,552 Dec. 22, 1999 US00/07483Non-provisional of US60/126,596 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07526 Mar. 22, 2000 US00/07526Non-provisional of US60/171,550 Dec. 22, 1999 US00/07526 Non-provisionalof US60/126,600 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07527 Mar. 22, 2000 US00/07527 Non-provisional of US60/171,551Dec. 22, 1999 US00/07527 Non-provisional of US60/126,501 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/07661 Mar. 23, 2000US00/07661 Non-provisional of US60/174,847 Jan. 07, 2000 US00/07661Non-provisional of US60/126,504 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07579 Mar. 23, 2000 US00/07579Non-provisional of US60/174,853 Jan. 07, 2000 US00/07579 Non-provisionalof US60/126,509 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07723 Mar. 23, 2000 US00/07723 Non-provisional of US60/242,710Oct. 25, 2000 US00/07723 Non-provisional of US60/174,852 Jan. 07, 2000US00/07723 Non-provisional of US60/126,506 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07724 Mar. 23, 2000 US00/07724Non-provisional of US60/174,850 Jan. 07, 2000 US00/07724 Non-provisionalof US60/126,510 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/14929 Jun. 01, 2000 US00/14929 Non-provisional of US60/174,851Jan. 07, 2000 US00/14929 Non-provisional of US60/138,573 Jun. 11, 1999US09/950,082 Continuation-in-part of PCT/US00/07722 Mar. 23, 2000US00/07722 Non-provisional of US60/174,871 Jan. 07, 2000 US00/07722Non-provisional of US60/126,508 Mar. 26, 1999 US09/950,082Continuation-in-part of PCT/US00/07578 Mar. 23, 2000 US00/07578Non-provisional of US60/174,872 Jan. 07, 2000 US00/07578 Non-provisionalof US60/126,507 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07726 Mar. 23, 2000 US00/07726 Non-provisional of US60/174,877Jan. 07, 2000 US00/07726 Non-provisional of US60/126,597 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/07677 Mar. 23, 2000US00/07677 Non-provisional of US60/176,064 Jan. 14, 2000 US00/07677Non-provisional of US60/154,373 Sep. 17, 1999 US00/07677 Non-provisionalof US60/126,601 Mar. 26, 1999 US09/950,082 Continuation-in-part ofPCT/US00/07725 Mar. 23, 2000 US00/07725 Non-provisional of US60/176,063Jan. 14, 2000 US00/07725 Non-provisional of US60/126,602 Mar. 26, 1999US09/950,082 Continuation-in-part of PCT/US00/09070 Apr. 06, 2000US00/09070 Non-provisional of US60/176,052 Jan. 14, 2000 US00/09070Non-provisional of US60/128,695 Apr. 09, 1999 US09/950,082Continuation-in-part of PCT/US00/08982 Apr. 06, 2000 US00/08982Non-provisional of US60/176,069 Jan. 14, 2000 US00/08982 Non-provisionalof US60/128,696 Apr. 09, 1999 US09/950,082 Continuation-in-part ofPCT/US00/08983 Apr. 06, 2000 US00/08983 Non-provisional of US60/176,068Jan. 14, 2000 US00/08983 Non-provisional of US60/128,703 Apr. 09, 1999US09/950,082 Continuation-in-part of PCT/US00/09067 Apr. 06, 2000US00/09067 Non-provisional of US60/176,929 Jan. 20, 2000 US00/09067Non-provisional of US60/128,697 Apr. 09, 1999 US09/950,082Continuation-in-part of PCT/US00/09066 Apr. 06, 2000 US00/09066Non-provisional of US60/176,926 Jan. 20, 2000 US00/09066 Non-provisionalof US60/128,698 Apr. 09, 1999 US09/950,082 Continuation-in-part ofPCT/US00/09068 Apr. 06, 2000 US00/09068 Non-provisional of US60/177,050Jan. 20, 2000 US00/09068 Non-provisional of US60/128,699 Apr. 09, 1999US09/950,082 Continuation-in-part of PCT/US00/08981 Apr. 06, 2000US00/08981 Non-provisional of US60/177,166 Jan. 20, 2000 US00/08981Non-provisional of US60/128,701 Apr. 09, 1999 US09/950,082Continuation-in-part of PCT/US00/08980 Apr. 06, 2000 US00/08980Non-provisional of US60/176,930 Jan. 20, 2000 US00/08980 Non-provisionalof US60/128,700 Apr. 09, 1999 US09/950,082 Continuation-in-part ofPCT/US00/09071 Apr. 06, 2000 US00/09071 Non-provisional of US60/176,931Jan. 20, 2000 US00/09071 Non-provisional of US60/128,694 Apr. 09, 1999US09/950,082 Continuation-in-part of PCT/US00/09069 Apr. 06, 2000US00/09069 Non-provisional of US60/177,049 Jan. 20, 2000 US00/09069Non-provisional of US60/128,702 Apr. 09, 1999 US09/950,082Continuation-in-part of PCT/US00/15136 Jun. 01, 2000 US00/15136Non-provisional of US60/138,629 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14926 Jun. 01, 2000 US00/14926Non-provisional of US60/138,628 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14963 Jun. 01, 2000 US00/14963Non-provisional of US60/138,631 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/15135 Jun. 01, 2000 US00/15135Non-provisional of US60/138,632 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14934 Jun. 01, 2000 US00/14934Non-provisional of US60/138,599 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14933 Jun. 01, 2000 US00/14933Non-provisional of US60/138,572 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/15137 Jun. 01, 2000 US00/15137Non-provisional of US60/138,625 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14928 Jun. 01, 2000 US00/14928Non-provisional of US60/138,633 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14973 Jun. 01, 2000 US00/14973Non-provisional of US60/,138,630 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/14964 Jun. 01, 2000 US00/14964Non-provisional of US60/138,627 Jun. 11, 1999 US09/950,082Continuation-in-part of PCT/US00/26376 Sep. 26, 2000 US00/26376Non-provisional of US60/155,808 Sep. 27, 1999 US09/950,082Continuation-in-part of PCT/US00/26371 Sep. 26, 2000 US00/26371Non-provisional of US60/155,804 Sep. 27, 1999 US09/950,082Continuation-in-part of PCT/US00/26324 Sep. 26, 2000 US00/26324Non-provisional of US60/155,807 Sep. 27, 1999 US09/950,082Continuation-in-part of PCT/US00/26323 Sep. 26, 2000 US00/26323Non-provisional of US60/155,805 Sep. 27, 1999 US09/950,082Continuation-in-part of PCT/US00/26337 Sep. 26, 2000 US00/26337Non-provisional of US60/155,806 Sep. 27, 1999 US09/950,082Continuation-in-part of US01/13318 Apr. 27, 2001 US01/13318Non-provisional of US60/212,142 Jun. 16, 2000 US01/13318 Non-provisionalof US60/201,194 May 02, 2000 10/105,299 Continuation-in-part ofUS09/950,083 Sep. 12, 2001 US09/950,083 Non-provisional of US60/278,650Mar. 27, 2001 US09/950,083 Continuation-in-part of PCT/US00/06043 Mar.09, 2000 US00/06043 Non-provisional of US60/167,061 Nov. 23, 1999US00/06043 Non-provisional of US60/124,146 Mar. 12, 1999 US09/950,083Continuation-in-part of PCT/US00/06012 Mar. 09, 2000 US00/06012Non-provisional of US60/166,989 Nov. 23, 1999 US00/06012 Non-provisionalof US60/124,093 Mar. 12, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06058 Mar. 09, 2000 US00/06058 Non-provisional of US60/168,654Dec. 03, 1999 US00/06058 Non-provisional of US60/124,145 Mar. 12, 1999US09/950,083 Continuation-in-part of PCT/US00/06044 Mar. 09, 2000US00/06044 Non-provisional of US60/168,661 Dec. 03, 1999 US00/06044Non-provisional of US60/124,099 Mar. 12, 1999 US09/950,083Continuation-in-part of PCT/US00/06059 Mar. 09, 2000 US00/06059Non-provisional of US60/168,622 Dec. 03, 1999 US00/06059 Non-provisionalof US60/124,096 Mar. 12, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06042 Mar. 09, 2000 US00/06042 Non-provisional of US60/168,663Dec. 03, 1999 US00/06042 Non-provisional of US60/124,143 Mar. 12, 1999US09/950,083 Continuation-in-part of PCT/US00/06014 Mar. 09, 2000US00/06014 Non-provisional of US60/168,665 Dec. 03, 1999 US00/06014Non-provisional of US60/138,598 Jun. 11, 1999 US00/06014 Non-provisionalof US60/124,095 Mar. 12, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06013 Mar. 09, 2000 US00/06013 Non-provisional of US60/168,662Dec. 03, 1999 US00/06013 Non-provisional of US60/138,626 Jun. 11, 1999US00/06013 Non-provisional of US60/125,360 Mar. 19, 1999 US09/950,083Continuation-in-part of PCT/US00/06049 Mar. 09, 2000 US00/06049Non-provisional of US60/168,667 Dec. 03, 1999 US00/06049 Non-provisionalof US60/138,574 Jun. 11, 1999 US00/06049 Non-provisional of US60/124,144Mar. 12, 1999 US09/950,083 Continuation-in-part of PCT/US00/06057 Mar.09, 2000 US00/06057 Non-provisional of US60/168,666 Dec. 03, 1999US00/06057 Non-provisional of US60/138,597 Jun. 11, 1999 US00/06057Non-provisional of US60/124,142 Mar. 12, 1999 US09/950,083Continuation-in-part of PCT/US00/06824 Mar. 16, 2000 US00/06824Non-provisional of US60/168,664 Dec. 03, 1999 US00/06824 Non-provisionalof US60/125,359 Mar. 19, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06765 Mar. 16, 2000 US00/06765 Non-provisional of US60/169,906Dec. 10, 1999 US00/06765 Non-provisional of US60/126,051 Mar. 23, 1999US09/950,083 Continuation-in-part of PCT/US00/06792 Mar. 16, 2000US00/06792 Non-provisional of US60/169,980 Dec. 10, 1999 US00/06792Non-provisional of US60/125,362 Mar. 19, 1999 US09/950,083Continuation-in-part of PCT/US00/06830 Mar. 16, 2000 US00/06830Non-provisional of US60/169,910 Dec. 10, 1999 US00/06830 Non-provisionalof US60/125,361 Mar. 19, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06782 Mar. 16, 2000 US00/06782 Non-provisional of US60/169,936Dec. 10, 1999 US00/06782 Non-provisional of US60/125,812 Mar. 23, 1999US09/950,083 Continuation-in-part of PCT/US00/06822 Mar. 16, 2000US00/06822 Non-provisional of US60/169,916 Dec. 10, 1999 US00/06822Non-provisional of US60/126,054 Mar. 23, 1999 US09/950,083Continuation-in-part of PCT/US00/06791 Mar. 16, 2000 US00/06791Non-provisional of US60/169,946 Dec. 10, 1999 US00/06791 Non-provisionalof US60/125,815 Mar. 23, 1999 US09/950,083 Continuation-in-part ofPCT/US00/06828 Mar. 16, 2000 US00/06828 Non-provisional of US60/169,616Dec. 08, 1999 US00/06828 Non-provisional of US60/125,358 Mar. 19, 1999US09/950,083 Continuation-in-part of PCT/US00/06823 Mar. 16, 2000US00/06823 Non-provisional of US60/169,623 Dec. 08, 1999 US00/06823Non-provisional of US60/125,364 Mar. 19, 1999 US09/950,083Continuation-in-part of PCT/US00/06781 Mar. 16, 2000 US00/06781Non-provisional of US60/169,617 Dec. 08, 1999 US00/06781 Non-provisionalof US60/125,363 Mar. 19, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07505 Mar. 22, 2000 US00/07505 Non-provisional of US60/172,410Dec. 17, 1999 US00/07505 Non-provisional of US60/126,502 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/07440 Mar. 22, 2000US00/07440 Non-provisional of US60/172,409 Dec. 17, 1999 US00/07440Non-provisional of US60/126,503 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07506 Mar. 22, 2000 US00/07506Non-provisional of US60/172,412 Dec. 17, 1999 US00/07506 Non-provisionalof US60/126,505 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07507 Mar. 22, 2000 US00/07507 Non-provisional of US60/172,408Dec. 17, 1999 US00/07507 Non-provisional of US60/126,594 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/07535 Mar. 22, 2000US00/07535 Non-provisional of US60/172,413 Dec. 17, 1999 US00/07535Non-provisional of US60/126,511 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07525 Mar. 22, 2000 US00/07525Non-provisional of US60/171,549 Dec. 22, 1999 US00/07525 Non-provisionalof US60/126,595 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07534 Mar. 22, 2000 US00/07534 Non-provisional of US60/171,504Dec. 22, 1999 US00/07534 Non-provisional of US60/126,598 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/07483 Mar. 22, 2000US00/07483 Non-provisional of US60/171,552 Dec. 22, 1999 US00/07483Non-provisional of US60/126,596 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07526 Mar. 22, 2000 US00/07526Non-provisional of US60/171,550 Dec. 22, 1999 US00/07526 Non-provisionalof US60/126,600 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07527 Mar. 22, 2000 US00/07527 Non-provisional of US60/171,551Dec. 22, 1999 US00/07527 Non-provisional of US60/126,501 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/07661 Mar. 23, 2000US00/07661 Non-provisional of US60/174,847 Jan. 07, 2000 US00/07661Non-provisional of US60/126,504 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07579 Mar. 23, 2000 US00/07579Non-provisional of US60/174,853 Jan. 07, 2000 US00/07579 Non-provisionalof US60/126,509 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07723 Mar. 23, 2000 US00/07723 Non-provisional of US60/242,710Oct. 25, 2000 US00/07723 Non-provisional of US60/174,852 Jan. 07, 2000US00/07723 Non-provisional of US60/126,506 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07724 Mar. 23, 2000 US00/07724Non-provisional of US60/174,850 Jan. 07, 2000 US00/07724 Non-provisionalof US60/126,510 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/14929 Jun. 01, 2000 US00/14929 Non-provisional of US60/174,851Jan. 07, 2000 US00/14929 Non-provisional of US60/138,573 Jun. 11, 1999US09/950,083 Continuation-in-part of PCT/US00/07722 Mar. 23, 2000US00/07722 Non-provisional of US60/174,871 Jan. 07, 2000 US00/07722Non-provisional of US60/126,508 Mar. 26, 1999 US09/950,083Continuation-in-part of PCT/US00/07578 Mar. 23, 2000 US00/07578Non-provisional of US60/174,872 Jan. 07, 2000 US00/07578 Non-provisionalof US60/126,507 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07726 Mar. 23, 2000 US00/07726 Non-provisional of US60/174,877Jan. 07, 2000 US00/07726 Non-provisional of US60/126,597 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/07677 Mar. 23, 2000US00/07677 Non-provisional of US60/176,064 Jan. 14, 2000 US00/07677Non-provisional of US60/154,373 Sep. 17, 1999 US00/07677 Non-provisionalof US60/126,601 Mar. 26, 1999 US09/950,083 Continuation-in-part ofPCT/US00/07725 Mar. 23, 2000 US00/07725 Non-provisional of US60/176,063Jan. 14, 2000 US00/07725 Non-provisional of US60/126,602 Mar. 26, 1999US09/950,083 Continuation-in-part of PCT/US00/09070 Apr. 06, 2000US00/09070 Non-provisional of US60/176,052 Jan. 14, 2000 US00/09070Non-provisional of US60/128,695 Apr. 09, 1999 US09/950,083Continuation-in-part of PCT/US00/08982 Apr. 06, 2000 US00/08982Non-provisional of US60/176,069 Jan. 14, 2000 US00/08982 Non-provisionalof US60/128,696 Apr. 09, 1999 US09/950,083 Continuation-in-part ofPCT/US00/08983 Apr. 06, 2000 US00/08983 Non-provisional of US60/176,068Jan. 14, 2000 US00/08983 Non-provisional of US60/128,703 Apr. 09, 1999US09/950,083 Continuation-in-part of PCT/US00/09067 Apr. 06, 2000US00/09067 Non-provisional of US60/176,929 Jan. 20, 2000 US00/09067Non-provisional of US60/128,697 Apr. 09, 1999 US09/950,083Continuation-in-part of PCT/US00/09066 Apr. 06, 2000 US00/09066Non-provisional of US60/176,926 Jan. 20, 2000 US00/09066 Non-provisionalof US60/128,698 Apr. 09, 1999 US09/950,083 Continuation-in-part ofPCT/US00/09068 Apr. 06, 2000 US00/09068 Non-provisional of US60/177,050Jan. 20, 2000 US00/09068 Non-provisional of US60/128,699 Apr. 09, 1999US09/950,083 Continuation-in-part of PCT/US00/08981 Apr. 06, 2000US00/08981 Non-provisional of US60/177,166 Jan. 20, 2000 US00/08981Non-provisional of US60/128,701 Apr. 09, 1999 US09/950,083Continuation-in-part of PCT/US00/08980 Apr. 06, 2000 US00/08980Non-provisional of US60/176,930 Jan. 20, 2000 US00/08980 Non-provisionalof US60/128,700 Apr. 09, 1999 US09/950,083 Continuation-in-part ofPCT/US00/09071 Apr. 06, 2000 US00/09071 Non-provisional of US60/176,931Jan. 20, 2000 US00/09071 Non-provisional of US60/128,694 Apr. 09, 1999US09/950,083 Continuation-in-part of PCT/US00/09069 Apr. 06, 2000US00/09069 Non-provisional of US60/177,049 Jan. 20, 2000 US00/09069Non-provisional of US60/128,702 Apr. 09, 1999 US09/950,083Continuation-in-part of PCT/US00/15136 Jun. 01, 2000 US00/15136Non-provisional of US60/138,629 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14926 Jun. 01, 2000 US00/14926Non-provisional of US60/138,628 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14963 Jun. 01, 2000 US00/14963Non-provisional of US60/138,631 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/15135 Jun. 01, 2000 US00/15135Non-provisional of US60/138,632 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14934 Jun. 01, 2000 US00/14934Non-provisional of US60/138,599 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14933 Jun. 01, 2000 US00/14933Non-provisional of US60/138,572 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/15137 Jun. 01, 2000 US00/15137Non-provisional of US60/138,625 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14928 Jun. 01, 2000 US00/14928Non-provisional of US60/138,633 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14973 Jun. 01, 2000 US00/14973Non-provisional of US60/,138,630 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/14964 Jun. 01, 2000 US00/14964Non-provisional of US60/138,627 Jun. 11, 1999 US09/950,083Continuation-in-part of PCT/US00/26376 Sep. 26, 2000 US00/26376Non-provisional of US60/155,808 Sep. 27, 1999 US09/950,083Continuation-in-part of PCT/US00/26371 Sep. 26, 2000 US00/26371Non-provisional of US60/155,804 Sep. 27, 1999 US09/950,083Continuation-in-part of PCT/US00/26324 Sep. 26, 2000 US00/26324Non-provisional of US60/155,807 Sep. 27, 1999 US09/950,083Continuation-in-part of PCT/US00/26323 Sep. 26, 2000 US00/26323Non-provisional of US60/155,805 Sep. 27, 1999 US09/950,083Continuation-in-part of PCT/US00/26337 Sep. 26, 2000 US00/26337Non-provisional of US60/155,806 Sep. 27, 1999 US09/950,083Continuation-in-part of US01/13318 Apr. 27, 2001 US01/13318Non-provisional of US60/212,142 Jun. 16, 2000 US01/13318 Non-provisionalof US60/201,194 May 02, 2000; wherein each of the above applications are all herein incorporated byreference in their entirety.

FIELD OF THE INVENTION

The present invention relates to human secreted proteins/polypeptides,and isolated nucleic acid molecules encoding said proteins/polypeptides,useful for detecting, preventing, diagnosing, prognosticating, treating,and/or ameliorating allergic and/or asthmatic diseases and disorders.Antibodies that bind these polypeptides are also encompassed by thepresent invention. Also encompassed by the invention are vectors, hostcells, and recombinant and synthetic methods for producing saidpolynucleotides, polypeptides, and/or antibodies. The invention furtherencompasses screening methods for identifying agonists and antagonistsof polynucleotides and polypeptides of the invention. The presentinvention further encompasses methods and compositions for inhibiting orenhancing the production and function of the polypeptides of the presentinvention.

BACKGROUND OF THE INVENTION

The immune system is an intricate network of cells, tissues and solublemolecules that function to protect the body from invasion by foreignsubstances and pathogens. The major cells of the immune system arelymphocytes, including B cells and T cells, and myeloid cells, includingbasophils, eosinophils, neutrophils, mast cells, monocytes, macrophagesand dendritic cells. In addition to these cellular components of theimmune system, soluble molecules—such as antibodies, complementproteins, and cytokines—circulate in lymph and blood plasma, and playimportant roles in immunity.

The immune system can be subdivided into the acquired and innate immunesystems. The cells of the innate immune system (e.g., neutrophils,eosinophils, basophils, mast cells) are not antigen specific and theiraction is not enhanced by repeated exposure to the same antigen. Thecells of the acquired immune system (B and T cells) are antigenspecific. Repeated exposure of B and T cells to an antigen results inimproved immune responses (memory responses) produced by these celltypes. The cells and products of the acquired immune system can recruitcomponents of the innate system to mount a focused immune response. Fora more extensive review of the immune system, see FundamentalImmunology, 4th edition, Ed. William Paul, Lippincott-Raven Pub. (1998).

An immune response is seldom carried out by a single cell type, butrather requires the coordinated efforts of several cell types. In orderto coordinate an immune response, it is necessary that cells of theimmune system communicate with each other and with other cells of thebody. Communication between cells may be made by cell-cell contact,between membrane bound molecules on each cell, or by the interaction ofsoluble components of the immune system with cellular receptors.Signaling between cell types may have one or more of a variety ofconsequences, including activation, proliferation, differentiation, andapoptosis. Activation and differentiation of immune cells may result inthe expression or secretion of polypeptides, or other molecules, whichin turn affect the function of other cells and/or molecules of theimmune system.

The genes and proteins associated with this coordinated immune responseare essential for the proper regulation and functioning of the immunesystem. Dysregulation of immune system-related genes and proteins mayresult in a variety of diseases and/or disorders, including immediatehypersensitivity diseases. Immediate hypersensitivity diseases, such asasthma, hay fever, and allergic conjunctivitis, are characterized bysimilar physiological mechanisms and generally are initiated byenvironmental antigens (e.g. pollen, dust, or molds). Patients sufferingfrom the effects of these disorders are predisposed to react to specificexternal antigens. When these antigens contact certain tissues, such asocular, nasal, or lung tissues, those tissues initiate an immuneresponse and produce undesirable and frequently life-threateningsymptoms. Over 35 million Americans suffer from allergic disorders, suchas seasonal allergic rhinitis (hay fever), and asthma affects about 10million Americans. These conditions are not only becoming more commonbut also more serious, with more people being hospitalized.

Molecules that stimulate or suppress immune system function are known asimmunomodulators. These molecules, which include endogenous proteins(e.g., cytokines, cytokine receptors, and intracellular signaltransduction molecules), molecules derived from microorganisms, andsynthetic agents, may exert their modulatory effects at one or morestages of the immune response, such as antigen recognition, stimulationof cytokine production and release, and/or activation/differentiation oflymphocytes and myeloid cells. Immunomodulators may enhance(immunoprophylaxis, immunostimulation), restore (immunosubstitution,immunorestoration) or suppress (immunosuppression, immunodeviation)immunological functions or activities.

Immunomodulatory compounds have many important applications in clinicalpractice. For example, immunosuppressing agents (which attenuate orprevent unwanted immune responses) can be used to prevent immediatehypersensitivity reactions such as asthma and allergic reactions. Amechanism of action common to many immunosuppressants is the inhibitionof T cell activation and/or differentiation. Antilymphocyte antibodieshave also been used to attenuate immune system functions. Currently usedimmunosuppressive agents can produce a number of side effects, whichlimit their use. Among the most serious secondary effects include kidneyand liver toxicity, increased risk of infection, hyperglycemia,neoplasia, and osteoporosis (see, e.g., Freeman, Clin. Biochem.24(1):9-14 (1991); Mitchison, Dig. Dis. 11(2):78-101 (1993)). Thediscovery of new human allergy and/or asthma related polynucleotides,the polypeptides encoded by them, and antibodies that specifically bindthese polypeptides, satisfies a need in the art by providing newcompositions that are useful in the diagnosis, treatment, preventionand/or prognosis of disorders of the immune system, including, but notlimited to, allergic reactions and conditions, asthma, and relatedimmediate hypersensitivity disorders.

SUMMARY OF THE INVENTION

The present invention encompasses human secreted proteins/polypeptides,and isolated nucleic acid molecules encoding said proteins/polypeptides,useful for detecting, preventing, diagnosing, prognosticating, treating,and/or ameliorating allergic and/or asthmatic diseases and disorders.Antibodies that bind these polypeptides are also encompassed by thepresent invention; as are vectors, host cells, and recombinant andsynthetic methods for producing said polynucleotides, polypeptides,and/or antibodies. The invention further encompasses screening methodsfor identifying agonists and antagonists of polynucleotides andpolypeptides of the invention. The present invention also encompassesmethods and compositions for inhibiting or enhancing the production andfunction of the polypeptides of the present invention.

DETAILED DESCRIPTION

Polynucleotides and Polypeptides of the Invention

Description of Table 1A

Table 1A summarizes information concerning certain polypnucleotides andpolypeptides of the invention. The first column provides the gene numberin the application for each clone identifier. The second column providesa unique clone identifier, “Clone ID:”, for a cDNA clone related to eachcontig sequence disclosed in Table 1A. Third column, the cDNA Clonesidentified in the second column were deposited as indicated in the thirdcolumn (i.e. by ATCC Deposit No: Z and deposit date). Some of thedeposits contain multiple different clones corresponding to the samegene. In the fourth column, “Vector” refers to the type of vectorcontained in the corresponding cDNA Clone identified in the secondcolumn. In the fifth column, the nucleotide sequence identified as “NTSEQ ID NO:X” was assembled from partially homologous (“overlapping”)sequences obtained from the corresponding cDNA clone identified in thesecond column and, in some cases, from additional related cDNA clones.The overlapping sequences were assembled into a single contiguoussequence of high redundancy (usually three to five overlapping sequencesat each nucleotide position), resulting in a final sequence identifiedas SEQ ID NO:X. In the sixth column, “Total NT Seq.” refers to the totalnumber of nucleotides in the contig sequence identified as SEQ ID NO:X.”The deposited clone may contain all or most of these sequences,reflected by the nucleotide position indicated as “5′ NT of Clone Seq.”(seventh column) and the “3′ NT of Clone Seq.” (eighth column) of SEQ IDNO:X. In the ninth column, the nucleotide position of SEQ ID NO:X of theputative start codon (methionine) is identified as “5′ NT of StartCodon.” Similarly, in column ten, the nucleotide position of SEQ ID NO:Xof the predicted signal sequence is identified as “5′ NT of First AA ofSignal Pep.” In the eleventh column, the translated amino acid sequence,beginning with the methionine, is identified as “AA SEQ ID NO:Y,”although other reading frames can also be routinely translated usingknown molecular biology techniques. The polypeptides produced by thesealternative open reading frames are specifically contemplated by thepresent invention.

In the twelfth and thirteenth columns of Table 1A, the first and lastamino acid position of SEQ ID NO:Y of the predicted signal peptide isidentified as “First AA of Sig Pep” and “Last AA of Sig Pep.” In thefourteenth column, the predicted first amino acid position of SEQ IDNO:Y of the secreted portion is identified as “Predicted First AA ofSecreted Portion”. The amino acid position of SEQ ID NO:Y of the lastamino acid encoded by the open reading frame is identified in thefifteenth column as “Last AA of ORF”.

SEQ ID NO:X (where X may be any of the polynucleotide sequencesdisclosed in the sequence listing) and the translated SEQ ID NO:Y (whereY may be any of the polypeptide sequences disclosed in the sequencelisting) are sufficiently accurate and otherwise suitable for a varietyof uses well known in the art and described further below. For instance,SEQ ID NO:X is useful for designing nucleic acid hybridization probesthat will detect nucleic acid sequences contained in SEQ ID NO:X or thecDNA contained in the deposited clone. These probes will also hybridizeto nucleic acid molecules in biological samples, thereby enabling avariety of forensic and diagnostic methods of the invention. Similarly,polypeptides identified from SEQ ID NO:Y may be used, for example, togenerate antibodies which bind specifically to proteins containing thepolypeptides and the secreted proteins encoded by the cDNA clonesidentified in Table 1A and/or elsewhere herein

Nevertheless, DNA sequences generated by sequencing reactions cancontain sequencing errors. The errors exist as misidentifiednucleotides, or as insertions or deletions of nucleotides in thegenerated DNA sequence. The erroneously inserted or deleted nucleotidescause frame shifts in the reading frames of the predicted amino acidsequence. In these cases, the predicted amino acid sequence divergesfrom the actual amino acid sequence, even though the generated DNAsequence may be greater than 99.9% identical to the actual DNA sequence(for example, one base insertion or deletion in an open reading frame ofover 1000 bases).

Accordingly, for those applications requiring precision in thenucleotide sequence or the amino acid sequence, the present inventionprovides not only the generated nucleotide sequence identified as SEQ IDNO:X, and the predicted translated amino acid sequence identified as SEQID NO:Y, but also a sample of plasmid DNA containing a human cDNA of theinvention deposited with the ATCC, as set forth in Table 1A. Thenucleotide sequence of each deposited plasmid can readily be determinedby sequencing the deposited plasmid in accordance with known methods

The predicted amino acid sequence can then be verified from suchdeposits. Moreover, the amino acid sequence of the protein encoded by aparticular plasmid can also be directly determined by peptide sequencingor by expressing the protein in a suitable host cell containing thedeposited human cDNA, collecting the protein, and determining itssequence.

Also provided in Table 1A is the name of the vector which contains thecDNA plasmid. Each vector is routinely used in the art. The followingadditional information is provided for convenience.

Vectors Lambda Zap (U.S. Pat. Nos. 5,128,256 and 5,286,636), Uni-Zap XR(U.S. Pat. Nos. 5,128,256 and 5,286,636), Zap Express (U.S. Pat. Nos.5,128,256 and 5,286,636), pBluescript (pBS) (Short, J. M. et al.,Nucleic Acids Res. 16:7583-7600 (1988); Alting-Mees, M. A. and Short, J.M., Nucleic Acids Res. 17:9494 (1989)) and pBK (Alting-Mees, M. A. etal., Strategies 5:58-61 (1992)) are commercially available fromStratagene Cloning Systems, Inc., 11011 N. Torrey Pines Road, La Jolla,Calif., 92037. pBS contains an ampicillin resistance gene and pBKcontains a neomycin resistance gene. Phagemid pBS may be excised fromthe Lambda Zap and Uni-Zap XR vectors, and phagemid pBK may be excisedfrom the Zap Express vector. Both phagemids may be transformed into E.coli strain XL-1 Blue, also available from Stratagene

Vectors pSport1, pCMVSport 1.0, pCMVSport 2.0 and pCMVSport 3.0, wereobtained from Life Technologies, Inc., P.O. Box 6009, Gaithersburg, Md.20897. All Sport vectors contain an ampicillin resistance gene and maybe transformed into E. coli strain DH10B, also available from LifeTechnologies. See, for instance, Gruber, C. E., et al., Focus 15:59(1993). Vector lafmid BA (Bento Soares, Columbia University, New York,N.Y.) contains an ampicillin resistance gene and can be transformed intoE. coli strain XL-1 Blue. Vector pCR®2.1, which is available fromInvitrogen, 1600 Faraday Avenue, Carlsbad, Calif. 92008, contains anampicillin resistance gene and may be transformed into E. coli strainDH10B, available from Life Technologies. See, for instance, Clark, J.M., Nuc. Acids Res. 16.9677-9686 (1988) and Mead, D. et al.,Bio/Technology 9: (1991).

The present invention also relates to the genes corresponding to SEQ IDNO:X, SEQ ID NO:Y, and/or a deposited cDNA (cDNA Clone ID). Thecorresponding gene can be isolated in accordance with known methodsusing the sequence information disclosed herein. Such methods include,but are not limited to, preparing probes or primers from the disclosedsequence and identifying or amplifying the corresponding gene fromappropriate sources of genomic material.

Also provided in the present invention are allelic variants, orthologs,and/or species homologs. Procedures known in the art can be used toobtain full-length genes, allelic variants, splice variants, full-lengthcoding portions, orthologs, and/or species homologs of genescorresponding to SEQ ID NO:X and SEQ ID NO:Y using information from thesequences disclosed herein or the clones deposited with the ATCC. Forexample, allelic variants and/or species homologs may be isolated andidentified by making suitable probes or primers from the sequencesprovided herein and screening a suitable nucleic acid source for allelicvariants and/or the desired homologue.

The present invention provides a polynucleotide comprising, oralternatively consisting of, the nucleic acid sequence of SEQ ID NO:Xand/or a cDNA contained in ATCC Deposit No. Z. The present inventionalso provides a polypeptide comprising, or alternatively, consisting of,the polypeptide sequence of SEQ ID NO:Y, a polypeptide encoded by SEQ IDNO:X, and/or a polypeptide encoded by a cDNA contained in ATCC depositNo. Z. Polynucleotides encoding a polypeptide comprising, oralternatively consisting of the polypeptide sequence of SEQ ID NO:Y, apolypeptide encoded by SEQ ID NO:X and/or a polypeptide encoded by thecDNA contained in ATCC Deposit No. Z, are also encompassed by theinvention. The present invention further encompasses a polynucleotidecomprising, or alternatively consisting of the complement of the nucleicacid sequence of SEQ ID NO:X, and/or the complement of the coding strandof the cDNA contained in ATCC Deposit No. Z.

Description of Table 1B (Comprised of Tables 1B.1 and 1B.2)

Table 1B.1 and Table 1B.2 summarize some of the polynucleotidesencompassed by the invention (including cDNA clones related to thesequences (Clone ID:), contig sequences (contig identifier (Contig ID:)and contig nucleotide sequence identifiers (SEQ ID NO:X)) and furthersummarizes certain characteristics of these polynucleotides and thepolypeptides encoded thereby. The first column of Tables 1B.1 and 1B.2provide the gene numbers in the application for each clone identifier.The second column of Tables 1B.1 and 1B.2 provide unique cloneidentifiers, “Clone ID:”, for cDNA clones related to each contigsequence disclosed in Table 1A and/or Table 1B. The third column ofTables 1B.1 and 1B.2 provide unique contig identifiers, “Contig ID:” foreach of the contig sequences disclosed in these tables. The fourthcolumn of Tables 1B.1 and 1B.2 provide the sequence identifiers, “SEQ IDNO:X”, for each of the contig sequences disclosed in Table 1A and/or 1B.

Table 1B.1

The fifth column of Table 1B.1, “ORF (From-To)”, provides the location(i.e., nucleotide position numbers) within the polynucleotide sequenceof SEQ ID NO:X that delineates the preferred open reading frame (ORF)that encodes the amino acid sequence shown in the sequence listing andreferenced in Table 1B.1 as SEQ ID NO:Y (column 6). Column 7 of Table1B.1 lists residues comprising predicted epitopes contained in thepolypeptides encoded by each of the preferred ORFs (SEQ ID NO:Y).Identification of potential immunogenic regions was performed accordingto the method of Jameson and Wolf (CABIOS, 4; 181-186 (1988));specifically, the Genetics Computer Group (GCG) implementation of thisalgorithm, embodied in the program PEPTIDESTRUCTURE (Wisconsin Packagev10.0, Genetics Computer Group (GCG), Madison, Wis.). This methodreturns a measure of the probability that a given residue is found onthe surface of the protein. Regions where the antigenic index score isgreater than 0.9 over at least 6 amino acids are indicated in Table 1B.1as “Predicted Epitopes”. In particular embodiments, polypeptides of theinvention comprise, or alternatively consist of, one, two, three, four,five or more of the predicted epitopes described in Table 1B.1. It willbe appreciated that depending on the analytical criteria used to predictantigenic determinants, the exact address of the determinant may varyslightly. Column 8 of Table 1B.1 (“Cytologic Band”) provides thechromosomal location of polynucleotides corresponding to SEQ ID NO:X.Chromosomal location was determined by finding exact matches to EST andcDNA sequences contained in the NCBI (National Center for BiotechnologyInformation) UniGene database. Given a presumptive chromosomal location,disease locus association was determined by comparison with the MorbidMap, derived from Online Mendelian Inheritance in Man (Online MendelianInheritance in Man, OMIM™. McKusick-Nathans Institute for GeneticMedicine, Johns Hopkins University (Baltimore, Md.) and National Centerfor Biotechnology Information, National Library of Medicine (Bethesda,Md.) 2000. World Wide Web URL: http://www.ncbi.nlm.nih.gov/omim/). Ifthe putative chromosomal location of the Query overlaps with thechromosomal location of a Morbid Map entry, an OMIM identificationnumber is disclosed in Table 1B.1, column 9 labeled “OMIM DiseaseReference(s)”. A key to the OMIM reference identification numbers isprovided in Table 5.

Table 1B.2

Column 5 of Table 1B.2, “Tissue Distribution” shows the expressionprofile of tissue, cells, and/or cell line libraries which express thepolynucleotides of the invention. The first code number shown in Table1B.2 column 5 (preceding the colon), represents the tissue/cell sourceidentifier code corresponding to the key provided in Table 4. Expressionof these polynucleotides was not observed in the other tissues and/orcell libraries tested. The second number in column 5 (following thecolon), represents the number of times a sequence corresponding to thereference polynucleotide sequence (e.g., SEQ ID NO:X) was identified inthe corresponding tissue/cell source. Those tissue/cell sourceidentifier codes in which the first two letters are “AR” designateinformation generated using DNA array technology. Utilizing thistechnology, cDNAs were amplified by PCR and then transferred, induplicate, onto the array. Gene expression was assayed throughhybridization of first strand cDNA probes to the DNA array. cDNA probeswere generated from total RNA extracted from a variety of differenttissues and cell lines. Probe synthesis was performed in the presence of³³P dCTP, using oligo(dT) to prime reverse transcription. Afterhybridization, high stringency washing conditions were employed toremove non-specific hybrids from the array. The remaining signal,emanating from each gene target, was measured using a Phosphorimager.Gene expression was reported as Phosphor Stimulating Luminescence (PSL)which reflects the level of phosphor signal generated from the probehybridized to each of the gene targets represented on the array. A localbackground signal subtraction was performed before the total signalgenerated from each array was used to normalize gene expression betweenthe different hybridizations. The value presented after “[array code]:”represents the mean of the duplicate values, following backgroundsubtraction and probe normalization. One of skill in the art couldroutinely use this information to identify normal and/or diseasedtissue(s) which show a predominant expression pattern of thecorresponding polynucleotide of the invention or to identifypolynucleotides which show predominant and/or specific tissue and/orcell expression.

Description of Table 1C

Table 1C summarizes additional polynucleotides encompassed by theinvention (including cDNA clones related to the sequences (Clone ID:),contig sequences (contig identifier (Contig ID:) contig nucleotidesequence identifiers (SEQ ID NO:X)), and genomic sequences (SEQ IDNO:B). The first column provides a unique clone identifier, “Clone ID:”,for a cDNA clone related to each contig sequence. The second columnprovides the sequence identifier, “SEQ ID NO:X”, for each contigsequence. The third column provides a unique contig identifier, “ContigID:” for each contig sequence. The fourth column, provides a BACidentifier “BAC ID NO:A” for the BAC clone referenced in thecorresponding row of the table. The fifth column provides the nucleotidesequence identifier, “SEQ ID NO:B” for a fragment of the BAC cloneidentified in column four of the corresponding row of the table. Thesixth column, “Exon From-To”, provides the location (i.e., nucleotideposition numbers) within the polynucleotide sequence of SEQ ID NO:Bwhich delineate certain polynucleotides of the invention that are alsoexemplary members of polynucleotide sequences that encode polypeptidesof the invention (e.g., polypeptides containing amino acid sequencesencoded by the polynucleotide sequences delineated in column six, andfragments and variants thereof).

Description of Table 1D

Table 1D: In preferred embodiments, the present invention encompasses amethod of detecting, preventing, diagnosing, prognosticating, treating,and/or ameliorating allergic and/or asthmatic diseases and disorders;comprising administering to a patient in which such treatment,prevention, or amelioration is desired a protein, nucleic acid, orantibody of the invention (or fragment or variant thereof) representedby Table 1A, Table 1B, and Table 1C, in an amount effective to detect,prevent, diagnose, prognosticate, treat, and/or ameliorate the diseaseor disorder.

As indicated in Table 1D, the polynucleotides, polypeptides, agonists,or antagonists of the present invention (including antibodies) can beused in assays to test for one or more biological activities. If thesepolynucleotides and polypeptides do exhibit activity in a particularassay, it is likely that these molecules may be involved in the diseasesassociated with the biological activity. Thus, the polynucleotides orpolypeptides, or agonists or antagonists thereof (including antibodies)could be used to treat the associated disease.

Table 1D provides information related to biological activities forpolynucleotides and polypeptides of the invention (including antibodies,agonists, and/or antagonists thereof). Table 1D also providesinformation related to assays which may be used to test polynucleotidesand polypeptides of the invention (including antibodies, agonists,and/or antagonists thereof) for the corresponding biological activities.The first column (“Gene No.”) provides the gene number in theapplication for each clone identifier. The second column (“cDNA CloneID:”) provides the unique clone identifier for each clone as previouslydescribed and indicated in Tables 1A, 1B, and 1C. The third column (“AASEQ ID NO:Y”) indicates the Sequence Listing SEQ ID Number forpolypeptide sequences encoded by the corresponding cDNA clones (also asindicated in Tables 1A, 1B, and 2). The fourth column (“BiologicalActivity”) indicates a biological activity corresponding to theindicated polypeptides (or polynucleotides encoding said polypeptides).The fifth column (“Exemplary Activity Assay”) further describes thecorresponding biological activity and provides information pertaining tothe various types of assays that may be performed to test, demonstrate,or quantify the corresponding biological activity. Table 1D describesthe use of FMAT technology, inter alia, for testing or demonstratingvarious biological activities. Fluorometric microvolume assay technology(FMAT) is a fluorescence-based system that provides a means to performnonradioactive cell- and bead-based assays to detect activation of cellsignal transduction pathways. This technology was designed specificallyfor ligand binding and immunological assays. Using this technology,fluorescent cells or beads at the bottom of the well are detected aslocalized areas of concentrated fluorescence using a data processingsystem. Unbound flurophore comprising the background signal is ignored,allowing for a wide variety of homogeneous assays. FMAT technology maybe used for peptide ligand binding assays, immunofluorescence,apoptosis, cytotoxicity, and bead-based immunocapture assays. See,Miraglia S et. al., “Homogeneous cell and bead based assays forhighthroughput screening using flourometric microvolume assaytechnology,” Journal of Biomolecular Screening; 4:193-204 (1999). Inparticular, FMAT technology may be used to test, confirm, and/oridentify the ability of polypeptides (including polypeptide fragmentsand variants) to activate signal transduction pathways. For example,FMAT technology may be used to test, confirm, and/or identify theability of polypeptides to upregulate production of immunomodulatoryproteins (such as, for example, interleukins, GM-CSF, Rantes, and TumorNecrosis factors, as well as other cellular regulators (e.g. insulin)).

Table 1D also describes the use of kinase assays for testing,demonstrating, or quantifying biological activity. In this regard, thephosphorylation and de-phosphorylation of specific amino acid residues(e.g. Tyrosine, Serine, Threonine) on cell-signal transduction proteinsprovides a fast, reversible means for activation and de-activation ofcellular signal transduction pathways. Moreover, cell signaltransduction via phosphorylation/de-phosphorylation is crucial to theregulation of a wide variety of cellular processes (e.g. proliferation,differentiation, migration, apoptosis, etc.). Accordingly, kinase assaysprovide a powerful tool useful for testing, confirming, and/oridentifying polypeptides (including polypeptide fragments and variants)that mediate cell signal transduction events via proteinphosphorylation. See e.g., Forrer, P., Tamaskovic R., and Jaussi, R.“Enzyme-Linked Immunosorbent Assay for Measurement of JNK, ERK, and p38Kinase Activities” Biol. Chem. 379(8-9): 1101-1110 (1998).

Description of Table 1E

Polynucleotides encoding polypeptides of the present invention can beused in assays to test for one or more biological activities. One suchbiological activity which may be tested includes the ability ofpolynucleotides and polypeptides of the invention to stimulateup-regulation or down-regulation of expression of particular genes andproteins. Hence, if polynucleotides and polypeptides of the presentinvention exhibit activity in altering particular gene and proteinexpression patterns, it is likely that these polynucleotides andpolypeptides of the present invention may be involved in, or capable ofeffecting changes in, diseases associated with the altered gene andprotein expression profiles. Hence, polynucleotides, polypeptides, orantibodies of the present invention could be used to treat saidassociated diseases.

TaqMan® assays may be performed to assess the ability of polynucleotides(and polypeptides they encode) to alter the expression pattern ofparticular “target” genes. TaqMan® reactions are performed to evaluatethe ability of a test agent to induce or repress expression of specificgenes in different cell types. TaqMan® gene expression quantificationassays (“TaqMan® assays”) are well known to, and routinely performed by,those of ordinary skill in the art. TaqMan® assays are performed in atwo step reverse transcription/polymerase chain reaction (RT-PCR). Inthe first (RT) step, cDNA is reverse transcribed from total RNA samplesusing random hexamer primers. In the second (PCR) step, PCR products aresynthesized from the cDNA using gene specific primers.

To quantify gene expression the Taqman® PCR reaction exploits the 5′nuclease activity of AmpliTaq Gold® DNA Polymerase to cleave a Taqman®probe (distinct from the primers) during PCR. The Taqman® probe containsa reporter dye at the 5′-end of the probe and a quencher dye at the 3′end of the probe. When the probe is intact, the proximity of thereporter dye to the quencher dye results in suppression of the reporterfluorescence. During PCR, if the target of interest is present, theprobe specifically anneals between the forward and reverse primer sites.AmpliTaq Fold DNA Polymerase then cleaves the probe between the reporterand quencher when the probe hybridizes to the target, resulting inincreased fluorescence of the reporter (see FIG. 2). Accumulation of PCRproducts is detected directly by monitoring the increase in fluorescenceof the reporter dye.

After the probe fragments are displaced from the target, polymerizationof the strand continues. The 3′-end of the probe is blocked to preventextension of the probe during PCR. This process occurs in every cycleand does not interfere with the exponential accumulation of product. Theincrease in fluorescence signal is detected only if the target sequenceis complementary to the probe and is amplified during PCR. Because ofthese requirements, any nonspecific amplification is not detected.

For test sample preparation, vector controls or constructs containingthe coding sequence for the gene of interest are transfected into cells,such as for example 293T cells, and supernatants collected after 48hours. For cell treatment and RNA isolation, multiple primary humancells or human cell lines are used; such cells may include but are notlimited to, Normal Human Dermal Fibroblasts, Aortic Smooth Muscle, HumanUmbilical Vein Endothelial Cells, HepG2, Daudi, Jurkat, U937, Caco, andTHP-1 cell lines. Cells are plated in growth media and growth isarrested by culturing without media change for 3 days, or by switchingcells to low serum media and incubating overnight. Cells are treated for1, 6, or 24 hours with either vector control supernatant or samplesupernatant (or purified/partially purified protein preparations inbuffer). Total RNA is isolated; for example, by using Trizol extractionor by using the Ambion RNAqueous™-4PCR RNA isolation system. Expressionlevels of multiple genes are analyzed using TAQMAN, and expression inthe test sample is compared to control vector samples to identify genesinduced or repressed. Each of the above described techniques are wellknown to, and routinely performed by, those of ordinary skill in theart.

Table 1E indicates particular disease classes and preferred indicationsfor which polynucleotides, polypeptides, or antibodies of the presentinvention may be used in detecting, diagnosing, preventing, treatingand/or ameliorating said diseases and disorders based on “target” geneexpression patterns which may be up- or down-regulated bypolynucleotides (and the encoded polypeptides) corresponding to eachindicated cDNA Clone ID (shown in Table 1E, Column 2).

Thus, in preferred embodiments, the present invention encompasses amethod of detecting, diagnosing, preventing, treating, and/orameliorating a disease or disorder listed in the “Disease Class” and/or“Preferred Indication” columns of Table 1E; comprising administering toa patient in which such detection, diagnosis, prevention, or treatmentis desired a protein, nucleic acid, or antibody of the invention (orfragment or variant thereof) in an amount effective to detect, diagnose,prevent, treat, or ameliorate the disease or disorder. The first andsecond columns of Table 1D show the “Gene No.” and “cDNA Clone ID No.”,respectively, indicating certain nucleic acids and proteins (orantibodies against the same) of the invention (including polynucleotide,polypeptide, and antibody fragments or variants thereof) that may beused in detecting, diagnosing, preventing, treating, or ameliorating thedisease(s) or disorder(s) indicated in column 6 and as indicated in thecorresponding row in the “Disease Class” or “Preferred Indication”Columns of Table 1E.

In another embodiment, the present invention also encompasses methods ofdetecting, diagnosing, preventing, treating, or ameliorating a diseaseor disorder listed in the “Disease Class” or “Preferred Indication”Columns of Table 1E; comprising administering to a patient combinationsof the proteins, nucleic acids, or antibodies of the invention (orfragments or variants thereof), sharing similar indications as shown inthe corresponding rows in the “Disease Class” or “Preferred Indication”Columns of Table 1E.

The “Disease Class” Column of Table 1E provides a categorizeddescriptive heading for diseases, disorders, and/or conditions (morefully described below) that may be detected, diagnosed, prevented,treated, or ameliorated by a protein, nucleic acid, or antibody of theinvention (or fragment or variant thereof).

The “Preferred Indication” Column of Table 1E describes diseases,disorders, and/or conditions that may be detected, diagnosed, prevented,treated, or ameliorated by a protein, nucleic acid, or antibody of theinvention (or fragment or variant thereof).

The “Cell Line” and “Exemplary Targets” Columns of Table 1E indicateparticular cell lines and target genes, respectively, which may showaltered gene expression patterns (i.e., up- or down-regulation of theindicated target gene) in Taqman assays, performed as described above,utilizing polynucleotides of the cDNA Clone ID shown in thecorresponding row. Alteration of expression patterns of the indicated“Exemplary Target” genes is correlated with a particular “Disease Class”and/or “Preferred Indication” as shown in the corresponding row underthe respective column headings.

The “Exemplary Accessions” Column indicates GenBank Accessions(available online through the National Center for BiotechnologyInformation (NCBI) at http://www.ncbi.nlm.nih.gov/) which correspond tothe “Exemplary Targets” shown in the adjacent row.

The recitation of “Cancer” in the “Disease Class” Column indicates thatthe corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof) may be used forexample, to detect, diagnose, prevent, treat, and/or ameliorateneoplastic diseases and/or disorders (e.g., leukemias, cancers, etc., asdescribed below under “Hyperproliferative Disorders”).

The recitation of “Immune” in the “Disease Class” column indicates thatthe corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, prevent, treat, and/or ameliorate diseasesand/or disorders relating to neoplastic diseases (e.g., as describedbelow under “Hyperproliferative Disorders”), blood disorders (e.g., asdescribed below under “Immune Activity” “Cardiovascular Disorders”and/or “Blood-Related Disorders”), and infections (e.g., as describedbelow under “Infectious Disease”).

The recitation of “Angiogenesis” in the “Disease Class” column indicatesthat the corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, treat, prevent, and/or ameliorate diseasesand/or disorders relating to neoplastic diseases (e.g., as describedbelow under “Hyperproliferative Disorders”), diseases and/or disordersof the cardiovascular system (e.g., as described below under“Cardiovascular Disorders”), diseases and/or disorders involvingcellular and genetic abnormalities (e.g., as described below under“Diseases at the Cellular Level”), diseases and/or disorders involvingangiogenesis (e.g., as described below under “Anti-AngiogenesisActivity”), to promote or inhibit cell or tissue regeneration (e.g., asdescribed below under “Regeneration”), or to promote wound healing(e.g., as described below under “Wound Healing and Epithelial CellProliferation”).

The recitation of “Diabetes” in the “Disease Class” column indicatesthat the corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, treat, prevent, and/or ameliorate diabetes(including diabetes mellitus types I and II), as well as diseases and/ordisorders associated with, or consequential to, diabetes (e.g. asdescribed below under “Endocrine Disorders,” “Renal Disorders,” and“Gastrointestinal Disorders”).

Description of Table 2

Table 2 summarizes homology and features of some of the polypeptides ofthe invention. The first column provides a unique clone identifier,“Clone ID:”, corresponding to a cDNA clone disclosed in Table 1A orTable 1B. The second column provides the unique contig identifier,“Contig ID:” corresponding to contigs in Table 1B and allowing forcorrelation with the information in Table 1B. The third column providesthe sequence identifier, “SEQ ID NO:X”, for the contig polynucleotidesequence. The fourth column provides the analysis method by which thehomology/identity disclosed in the Table was determined. Comparisonswere made between polypeptides encoded by the polynucleotides of theinvention and either a non-redundant protein database (herein referredto as “NR”), or a database of protein families (herein referred to as“PFAM”) as further described below. The fifth column provides adescription of the PFAM/NR hit having a significant match to apolypeptide of the invention. Column six provides the accession numberof the PFAM/NR hit disclosed in the fifth column. Column seven,“Score/Percent Identity”, provides a quality score or the percentidentity, of the hit disclosed in columns five and six. Columns 8 and 9,“NT From” and “NT To” respectively, delineate the polynucleotides in“SEQ ID NO:X” that encode a polypeptide having a significant match tothe PFAM/NR database as disclosed in the fifth and sixth columns. Inspecific embodiments polypeptides of the invention comprise, oralternatively consist of, an amino acid sequence encoded by apolynucleotide in SEQ ID NO:X as delineated in columns 8 and 9, orfragments or variants thereof.

Description of Table 3

Table 3 provides polynucleotide sequences that may be disclaimedaccording to certain embodiments of the invention. The first columnprovides a unique clone identifier, “Clone ID”, for a cDNA clone relatedto contig sequences disclosed in Table 1B. The second column providesthe sequence identifier, “SEQ ID NO:X”, for contig sequences disclosedin Table 1A and/or Table 1B. The third column provides the unique contigidentifier, “Contig ID:”, for contigs disclosed in Table 1B. The fourthcolumn provides a unique integer ‘a’ where ‘a’ is any integer between 1and the final nucleotide minus 15 of SEQ ID NO:X, and the fifth columnprovides a unique integer ‘b’ where ‘b’ is any integer between 15 andthe final nucleotide of SEQ ID NO:X, where both a and b correspond tothe positions of nucleotide residues shown in SEQ ID NO:X, and where bis greater than or equal to a+14. For each of the polynucleotides shownas SEQ ID NO:X, the uniquely defined integers can be substituted intothe general formula of a-b, and used to describe polynucleotides whichmay be preferably excluded from the invention. In certain embodiments,preferably excluded from the invention are at least one, two, three,four, five, ten, or more of the polynucleotide sequence(s) having theaccession number(s) disclosed in the sixth column of this Table(including for example, published sequence in connection with aparticular BAC clone). In further embodiments, preferably excluded fromthe invention are the specific polynucleotide sequence(s) contained inthe clones corresponding to at least one, two, three, four, five, ten,or more of the available material having the accession numbersidentified in the sixth column of this Table (including for example, theactual sequence contained in an identified BAC clone).

Description of Table 4

Table 4 provides a key to the tissue/cell source identifier codedisclosed in Table 1B.2, column 5. Column 1 of Table 4 provides thetissue/cell source identifier code disclosed in Table 1B.2, column 5.Columns 2-5 provide a description of the tissue or cell source. Notethat “Description” and “Tissue” sources (i.e. columns 2 and 3) havingthe prefix “a_” indicates organs, tissues, or cells derived from “adult”sources. Codes corresponding to diseased tissues are indicated in column6 with the word “disease.” The use of the word “disease” in column 6 isnon-limiting. The tissue or cell source may be specific (e.g. aneoplasm), or may be disease-associated (e.g., a tissue sample from anormal portion of a diseased organ). Furthermore, tissues and/or cellslacking the “disease” designation may still be derived from sourcesdirectly or indirectly involved in a disease state or disorder, andtherefore may have a further utility in that disease state or disorder.In numerous cases where the tissue/cell source is a library, column 7identifies the vector used to generate the library.

Description of Table 5

Table 5 provides a key to the OMIM reference identification numbersdisclosed in Table 1B.1, column 9. OMIM reference identification numbers(Column 1) were derived from Online Mendelian Inheritance in Man (OnlineMendelian Inheritance in Man, OMIM. McKusick-Nathans Institute forGenetic Medicine, Johns Hopkins University (Baltimore, Md.) and NationalCenter for Biotechnology Information, National Library of Medicine,(Bethesda, Md.) 2000. World Wide Web URL:http://www.ncbi.nlm.nih.gov/omim/). Column 2 provides diseasesassociated with the cytologic band disclosed in Table 1B.1, column 8, asdetermined using the Morbid Map database.

Description of Table 6

Table 6 summarizes some of the ATCC Deposits, Deposit dates, and ATCCdesignation numbers of deposits made with the ATCC in connection withthe present application. These deposits were made in addition to thosedescribed in the Table 1A.

Description of Table 7

Table 7 shows the cDNA libraries sequenced, and ATCC designation numbersand vector information relating to these cDNA libraries.

The first column shows the first four letters indicating the Libraryfrom which each library clone was derived. The second column indicatesthe catalogued tissue description for the corresponding libraries. Thethird column indicates the vector containing the corresponding clones.The fourth column shows the ATCC deposit designation for each librayclone as indicated by the deposit information in Table 6.

Definitions

The following definitions are provided to facilitate understanding ofcertain terms used throughout this specification.

In the present invention, “isolated” refers to material removed from itsoriginal environment (e.g., the natural environment if it is naturallyoccurring), and thus is altered “by the hand of man” from its naturalstate. For example, an isolated polynucleotide could be part of a vectoror a composition of matter, or could be contained within a cell, andstill be “isolated” because that vector, composition of matter, orparticular cell is not the original environment of the polynucleotide.The term “isolated” does not refer to genomic or cDNA libraries, wholecell total or mRNA preparations, genomic DNA preparations (includingthose separated by electrophoresis and transferred onto blots), shearedwhole cell genomic DNA preparations or other compositions where the artdemonstrates no distinguishing features of the polynucleotide/sequencesof the present invention.

In the present invention, a “secreted” protein refers to those proteinscapable of being directed to the ER, secretory vesicles, or theextracellular space as a result of a signal sequence, as well as thoseproteins released into the extracellular space without necessarilycontaining a signal sequence. If the secreted protein is released intothe extracellular space, the secreted protein can undergo extracellularprocessing to produce a “mature” protein. Release into the extracellularspace can occur by many mechanisms, including exocytosis and proteolyticcleavage.

As used herein, a “polynucleotide” refers to a molecule having a nucleicacid sequence encoding SEQ ID NO:Y or a fragment or variant thereof(e.g., the polypeptide delinated in columns fourteen and fifteen ofTable 1A); a nucleic acid sequence contained in SEQ ID NO:X (asdescribed in column 5 of Table 1A and/or column 3 of Table 1B) or thecomplement thereof; a cDNA sequence contained in Clone ID: (as describedin column 2 of Table 1A and/or Table 1B and contained within a librarydeposited with the ATCC); a nucleotide sequence encoding the polypeptideencoded by a nucleotide sequence in SEQ ID NO:B as defined in column 6(EXON From-To) of Table 1C or a fragment or variant thereof; or anucleotide coding sequence in SEQ ID NO:B as defined in column 6 ofTable 1C or the complement thereof. For example, the polynucleotide cancontain the nucleotide sequence of the full-length cDNA sequence,including the 5′ and 3′ untranslated sequences, the coding region, aswell as fragments, epitopes, domains, and variants of the nucleic acidsequence. Moreover, as used herein, a “polypeptide” refers to a moleculehaving an amino acid sequence encoded by a polynucleotide of theinvention as broadly defined (obviously excluding poly-Phenylalanine orpoly-Lysine peptide sequences which result from translation of a polyAtail of a sequence corresponding to a cDNA).

In the present invention, “SEQ ID NO:X” was often generated byoverlapping sequences contained in multiple clones (contig analysis). Arepresentative clone containing all or most of the sequence for SEQ IDNO:X is deposited at Human Genome Sciences, Inc. (HGS) in a cataloguedand archived library. As shown, for example, in column 2 of Table 1B,each clone is identified by a cDNA Clone ID (identifier generallyreferred to herein as Clone ID:). Each Clone ID is unique to anindividual clone and the Clone ID is all the information needed toretrieve a given clone from the HGS library. Table 7 provides a list ofthe deposited cDNA libraries. One can use the Clone ID: to determine thelibrary source by reference to Tables 6 and 7. Table 7 lists thedeposited cDNA libraries by name and links each library to an ATCCDeposit. Library names contain four characters, for example, “HTWE.” Thename of a cDNA clone (Clone ID) isolated from that library begins withthe same four characters, for example “HTWEP07”. As mentioned below,Table 1A and/or Table 1B correlates the Clone ID names with SEQ ID NO:X.Thus, starting with an SEQ ID NO:X, one can use Tables 1A, 1B, 6, 7, and9 to determine the corresponding Clone ID, which library it came fromand which ATCC deposit the library is contained in. Furthermore, it ispossible to retrieve a given cDNA clone from the source library bytechniques known in the art and described elsewhere herein. The ATCC islocated at 10801 University Boulevard, Manassas, Va. 20110-2209, USA.The ATCC deposits were made pursuant to the terms of the Budapest Treatyon the international recognition of the deposit of microorganisms forthe purposes of patent procedure.

In specific embodiments, the polynucleotides of the invention are atleast 15, at least 30, at least 50, at least 100, at least 125, at least500, or at least 1000 continuous nucleotides but are less than or equalto 300 kb, 200 kb, 100 kb, 50 kb, 15 kb, 10 kb, 7.5 kb, 5 kb, 2.5 kb,2.0 kb, or 1 kb, in length. In a further embodiment, polynucleotides ofthe invention comprise a portion of the coding sequences, as disclosedherein, but do not comprise all or a portion of any intron. In anotherembodiment, the polynucleotides comprising coding sequences do notcontain coding sequences of a genomic flanking gene (i.e., 5′ or 3′ tothe gene of interest in the genome). In other embodiments, thepolynucleotides of the invention do not contain the coding sequence ofmore than 1000, 500, 250, 100, 50, 25, 20, 15, 10, 5, 4, 3, 2, or 1genomic flanking gene(s).

A “polynucleotide” of the present invention also includes thosepolynucleotides capable of hybridizing, under stringent hybridizationconditions, to sequences contained in SEQ ID NO:X, or the complementthereof (e.g., the complement of any one, two, three, four, or more ofthe polynucleotide fragments described herein), the polynucleotidesequence delineated in columns 7 and 8 of Table 1A or the complementthereof, the polynucleotide sequence delineated in columns 8 and 9 ofTable 2 or the complement thereof, and/or cDNA sequences contained inClone ID: (e.g., the complement of any one, two, three, four, or more ofthe polynucleotide fragments, or the cDNA clone within the pool of cDNAclones deposited with the ATCC, described herein), and/or thepolynucleotide sequence delineated in column 6 of Table 1C or thecomplement thereof. “Stringent hybridization conditions” refers to anovernight incubation at 42 degree C. in a solution comprising 50%formamide, 5×SSC (750 mM NaCl, 75 mM trisodium citrate), 50 mM sodiumphosphate (pH 7.6), 5× Denhardt's solution, 10% dextran sulfate, and 20μg/ml denatured, sheared salmon sperm DNA, followed by washing thefilters in 0.1×SSC at about 65 degree C.

Also contemplated are nucleic acid molecules that hybridize to thepolynucleotides of the present invention at lower stringencyhybridization conditions. Changes in the stringency of hybridization andsignal detection are primarily accomplished through the manipulation offormamide concentration (lower percentages of formamide result inlowered stringency); salt conditions, or temperature. For example, lowerstringency conditions include an overnight incubation at 37 degree C. ina solution comprising 6×SSPE (20×SSPE=3M NaCl; 0.2M NaH₂PO₄; 0.02M EDTA,pH 7.4), 0.5% SDS, 30% formamide, 100 ug/ml salmon sperm blocking DNA;followed by washes at 50 degree C. with 1×SSPE, 0.1% SDS. In addition,to achieve even lower stringency, washes performed following stringenthybridization can be done at higher salt concentrations (e.g. 5×SSC).

Note that variations in the above conditions may be accomplished throughthe inclusion and/or substitution of alternate blocking reagents used tosuppress background in hybridization experiments. Typical blockingreagents include Denhardt's reagent, BLOTTO, heparin, denatured salmonsperm DNA, and commercially available proprietary formulations. Theinclusion of specific blocking reagents may require modification of thehybridization conditions described above, due to problems withcompatibility.

Of course, a polynucleotide which hybridizes only to polyA+ sequences(such as any 3′ terminal polyA+ tract of a cDNA shown in the sequencelisting), or to a complementary stretch of T (or U) residues, would notbe included in the definition of “polynucleotide,” since such apolynucleotide would hybridize to any nucleic acid molecule containing apoly (A) stretch or the complement thereof (e.g., practically anydouble-stranded cDNA clone generated using oligo dT as a primer).

The polynucleotide of the present invention can be composed of anypolyribonucleotide or polydeoxribonucleotide, which may be unmodifiedRNA or DNA or modified RNA or DNA. For example, polynucleotides can becomposed of single- and double-stranded DNA, DNA that is a mixture ofsingle- and double-stranded regions, single- and double-stranded RNA,and RNA that is mixture of single- and double-stranded regions, hybridmolecules comprising DNA and RNA that may be single-stranded or, moretypically, double-stranded or a mixture of single- and double-strandedregions. In addition, the polynucleotide can be composed oftriple-stranded regions comprising RNA or DNA or both RNA and DNA. Apolynucleotide may also contain one or more modified bases or DNA or RNAbackbones modified for stability or for other reasons. “Modified” basesinclude, for example, tritylated bases and unusual bases such asinosine. A variety of modifications can be made to DNA and RNA; thus,“polynucleotide” embraces chemically, enzymatically, or metabolicallymodified forms.

In specific embodiments, the polynucleotides of the invention are atleast 15, at least 30, at least 50, at least 100, at least 125, at least500, or at least 1000 continuous nucleotides but are less than or equalto 300 kb, 200 kb, 100 kb, 50 kb, 15 kb, 10 kb, 7.5 kb, 5 kb, 2.5 kb,2.0 kb, or 1 kb, in length. In a further embodiment, polynucleotides ofthe invention comprise a portion of the coding sequences, as disclosedherein, but do not comprise all or a portion of any intron. In anotherembodiment, the polynucleotides comprising coding sequences do notcontain coding sequences of a genomic flanking gene (i.e., 5′ or 3′ tothe gene of interest in the genome). In other embodiments, thepolynucleotides of the invention do not contain the coding sequence ofmore than 1000, 500, 250, 100, 50, 25, 20, 15, 10, 5, 4, 3, 2, or 1genomic flanking gene(s).

“SEQ ID NO:X” refers to a polynucleotide sequence described in column 5of Table 1A, while “SEQ ID NO:Y” refers to a polypeptide sequencedescribed in column 10 of Table 1A. SEQ ID NO:X is identified by aninteger specified in column 6 of Table 1A. The polypeptide sequence SEQID NO:Y is a translated open reading frame (ORF) encoded bypolynucleotide SEQ ID NO:X. The polynucleotide sequences are shown inthe sequence listing immediately followed by all of the polypeptidesequences. Thus, a polypeptide sequence corresponding to polynucleotidesequence SEQ ID NO:2 is the first polypeptide sequence shown in thesequence listing. The second polypeptide sequence corresponds to thepolynucleotide sequence shown as SEQ ID NO:3, and so on.

The polypeptide of the present invention can be composed of amino acidsjoined to each other by peptide bonds or modified peptide bonds, i.e.,peptide isosteres, and may contain amino acids other than the 20gene-encoded amino acids. The polypeptides may be modified by eithernatural processes, such as posttranslational processing, or by chemicalmodification techniques which are well known in the art. Suchmodifications are well described in basic texts and in more detailedmonographs, as well as in a voluminous research literature.Modifications can occur anywhere in a polypeptide, including the peptidebackbone, the amino acid side-chains and the amino or carboxyl termini.It will be appreciated that the same type of modification may be presentin the same or varying degrees at several sites in a given polypeptide.Also, a given polypeptide may contain many types of modifications.Polypeptides may be branched, for example, as a result ofubiquitination, and they may be cyclic, with or without branching.Cyclic, branched, and branched cyclic polypeptides may result fromposttranslation natural processes or may be made by synthetic methods.Modifications include acetylation, acylation, ADP-ribosylation,amidation, covalent attachment of flavin, covalent attachment of a hememoiety, covalent attachment of a nucleotide or nucleotide derivative,covalent attachment of a lipid or lipid derivative, covalent attachmentof phosphotidylinositol, cross-linking, cyclization, disulfide bondformation, demethylation, formation of covalent cross-links, formationof cysteine, formation of pyroglutamate, formylation,gamma-carboxylation, glycosylation, GPI anchor formation, hydroxylation,iodination, methylation, myristoylation, oxidation, pegylation,proteolytic processing, phosphorylation, prenylation, racemization,selenoylation, sulfation, transfer-RNA mediated addition of amino acidsto proteins such as arginylation, and ubiquitination. (See, forinstance, PROTEINS—STRUCTURE AND MOLECULAR PROPERTIES, 2nd Ed., T. E.Creighton, W. H. Freeman and Company, New York (1993); POSTTRANSLATIONALCOVALENT MODIFICATION OF PROTEINS, B. C. Johnson, Ed., Academic Press,New York, pgs. 1-12 (1983); Seifter et al., Meth. Enzymol. 182:626-646(1990); Rattan et al., Ann. N.Y. Acad. Sci. 663:48-62 (1992)).

“SEQ ID NO:X” refers to a polynucleotide sequence described, forexample, in Tables 1A, Table 1B, or Table 2, while “SEQ ID NO:Y” refersto a polypeptide sequence described in column 11 of Table 1A and orTable 1B. SEQ ID NO:X is identified by an integer specified in column 4of Table 1B. The polypeptide sequence SEQ ID NO:Y is a translated openreading frame (ORF) encoded by polynucleotide SEQ ID NO:X. “Clone ID:”refers to a cDNA clone described in column 2 of Table 1A and/or 1B.

“A polypeptide having functional activity” refers to a polypeptidecapable of displaying one or more known functional activities associatedwith a full-length (complete) protein. Such functional activitiesinclude, but are not limited to, biological activity (e.g. activityuseful in treating, preventing and/or ameliorating allergic and/orasthmatic diseases and disorders), antigenicity (ability to bind [orcompete with a polypeptide for binding] to an anti-polypeptideantibody), immunogenicity (ability to generate antibody which binds to aspecific polypeptide of the invention), ability to form multimers withpolypeptides of the invention, and ability to bind to a receptor orligand for a polypeptide.

The polypeptides of the invention can be assayed for functional activity(e.g. biological activity) using or routinely modifying assays known inthe art, as well as assays described herein. Specifically, one of skillin the art may routinely assay secreted polypeptides (includingfragments and variants) of the invention for activity using assays asdescribed in the examples section below.

“A polypeptide having biological activity” refers to a polypeptideexhibiting activity similar to, but not necessarily identical to, anactivity of a polypeptide of the present invention, including matureforms, as measured in a particular biological assay, with or withoutdose dependency. In the case where dose dependency does exist, it neednot be identical to that of the polypeptide, but rather substantiallysimilar to the dose-dependence in a given activity as compared to thepolypeptide of the present invention (i.e., the candidate polypeptidewill exhibit greater activity or not more than about 25-fold less and,preferably, not more than about tenfold less activity, and mostpreferably, not more than about three-fold less activity relative to thepolypeptide of the present invention).

Tables

Table 1A Table 1A summarizes information concerning certainpolypnucleotides and polypeptides of the invention. The first columnprovides the gene number in the application for each clone identifier.The second column provides a unique clone identifier, “Clone ID:”, for acDNA clone related to each contig sequence disclosed in Table 1A. Thirdcolumn, the cDNA Clones identified in the second column were depositedas indicated in the third column (i.e. by ATCC Deposit No: Z and depositdate). Some of the deposits contain multiple different clonescorresponding to the same gene. In the fourth column, “Vector” refers tothe type of vector contained in the corresponding cDNA Clone identifiedin the second column. In the fifth column, the nucleotide sequenceidentified as “NT SEQ ID NO:X” was assembled from partially homologous(“overlapping”) sequences obtained from the corresponding cDNA cloneidentified in the second column and, in some cases, from additionalrelated cDNA clones. The overlapping sequences were assembled into asingle contiguous sequence of high redundancy (usually three to fiveoverlapping sequences at each nucleotide position), resulting in a finalsequence identified as SEQ ID NO:X. In the sixth column, “Total NT Seq.”refers to the total number of nucleotides in the contig sequenceidentified as SEQ ID NO:X.” The deposited clone may contain all or mostof these sequences, reflected by the nucleotide position indicated as“5′ NT of Clone Seq.” (seventh column) and the “3′ NT of Clone Seq.”(eighth column) of SEQ ID NO:X. In the ninth column, the nucleotideposition of SEQ ID NO:X of the putative start codon (methionine) isidentified as “5′ NT of Start Codon.” Similarly, in column ten, thenucleotide position of SEQ ID NO:X of the predicted signal sequence isidentified as “5′ NT of First AA of Signal Pep.” In the eleventh column,the translated amino acid sequence, beginning with the methionine, isidentified as “AA SEQ ID NO:Y,” although other reading frames can alsobe routinely translated using known molecular biology techniques. Thepolypeptides produced by these alternative open reading frames arespecifically contemplated by the present invention.

In the twelfth and thirteenth columns of Table 1A, the first and lastamino acid position of SEQ ID NO:Y of the predicted signal peptide isidentified as “First AA of Sig Pep” and “Last AA of Sig Pep.” In thefourteenth column, the predicted first amino acid position of SEQ IDNO:Y of the secreted portion is identified as “Predicted First AA ofSecreted Portion”. The amino acid position of SEQ ID NO:Y of the lastamino acid encoded by the open reading frame is identified in thefifteenth column as “Last AA of ORF”.

SEQ ID NO:X (where X may be any of the polynucleotide sequencesdisclosed in the sequence listing) and the translated SEQ ID NO:Y (whereY may be any of the polypeptide sequences disclosed in the sequencelisting) are sufficiently accurate and otherwise suitable for a varietyof uses well known in the art and described further below. For instance,SEQ ID NO:X is useful for designing nucleic acid hybridization probesthat will detect nucleic acid sequences contained in SEQ ID NO:X or thecDNA contained in the deposited clone. These probes will also hybridizeto nucleic acid molecules in biological samples, thereby enabling avariety of forensic and diagnostic methods of the invention. Similarly,polypeptides identified from SEQ ID NO:Y may be used, for example, togenerate antibodies which bind specifically to proteins containing thepolypeptides and the secreted proteins encoded by the cDNA clonesidentified in Table 1A and/or elsewhere herein

Nevertheless, DNA sequences generated by sequencing reactions cancontain sequencing errors. The errors exist as misidentifiednucleotides, or as insertions or deletions of nucleotides in thegenerated DNA sequence. The erroneously inserted or deleted nucleotidescause frame shifts in the reading frames of the predicted amino acidsequence. In these cases, the predicted amino acid sequence divergesfrom the actual amino acid sequence, even though the generated DNAsequence may be greater than 99.9% identical to the actual DNA sequence(for example, one base insertion or deletion in an open reading frame ofover 1000 bases).

Accordingly, for those applications requiring precision in thenucleotide sequence or the amino acid sequence, the present inventionprovides not only the generated nucleotide sequence identified as SEQ IDNO:X, and the predicted translated amino acid sequence identified as SEQID NO:Y, but also a sample of plasmid DNA containing a human cDNA of theinvention deposited with the ATCC, as set forth in Table 1A. Thenucleotide sequence of each deposited plasmid can readily be determinedby sequencing the deposited plasmid in accordance with known methods

The predicted amino acid sequence can then be verified from suchdeposits. Moreover, the amino acid sequence of the protein encoded by aparticular plasmid can also be directly determined by peptide sequencingor by expressing the protein in a suitable host cell containing thedeposited human cDNA, collecting the protein, and determining itssequence.

Also provided in Table 1A is the name of the vector which contains thecDNA plasmid. Each vector is routinely used in the art. The followingadditional information is provided for convenience.

Vectors Lambda Zap (U.S. Pat. Nos. 5,128,256 and 5,286,636), Uni-Zap XR(U.S. Pat. Nos. 5,128,256 and 5,286,636), Zap Express (U.S. Pat. Nos.5,128,256 and 5,286,636), pBluescript (pBS) (Short, J. M. et al.,Nucleic Acids Res. 16:7583-7600 (1988); Alting-Mees, M. A. and Short, J.M., Nucleic Acids Res. 17:9494 (1989)) and pBK (Alting-Mees, M. A. etal., Strategies 5:58-61 (1992)) are commercially available fromStratagene Cloning Systems, Inc., 11011 N. Torrey Pines Road, La Jolla,Calif., 92037. pBS contains an ampicillin resistance gene and pBKcontains a neomycin resistance gene. Phagemid pBS may be excised fromthe Lambda Zap and Uni-Zap XR vectors, and phagemid pBK may be excisedfrom the Zap Express vector. Both phagemids may be transformed into E.coli strain XL-1 Blue, also available from Stratagene

Vectors pSport1, pCMVSport 1.0, pCMVSport 2.0 and pCMVSport 3.0, wereobtained from Life Technologies, Inc., P.O. Box 6009, Gaithersburg, Md.20897. All Sport vectors contain an ampicillin resistance gene and maybe transformed into E. coli strain DH10B, also available from LifeTechnologies. See, for instance, Gruber, C. E., et al., Focus 15:59(1993). Vector lafmid BA (Bento Soares, Columbia University, New York,N.Y.) contains an ampicillin resistance gene and can be transformed intoE. coli strain XL-1 Blue. Vector pCR®2.1, which is available fromInvitrogen, 1600 Faraday Avenue, Carlsbad, Calif. 92008, contains anampicillin resistance gene and may be transformed into E. coli strainDH10B, available from Life Technologies. See, for instance, Clark, J.M., Nuc. Acids Res. 16:9677-9686 (1988) and Mead, D. et al.,Bio/Technology 9: (1991).

The present invention also relates to the genes corresponding to SEQ IDNO:X, SEQ ID NO:Y, and/or a deposited cDNA (cDNA Clone ID). Thecorresponding gene can be isolated in accordance with known methodsusing the sequence information disclosed herein. Such methods include,but are not limited to, preparing probes or primers from the disclosedsequence and identifying or amplifying the corresponding gene fromappropriate sources of genomic material.

Also provided in the present invention are allelic variants, orthologs,and/or species homologs. Procedures known in the art can be used toobtain full-length genes, allelic variants, splice variants, full-lengthcoding portions, orthologs, and/or species homologs of genescorresponding to SEQ ID NO:X and SEQ ID NO:Y using information from thesequences disclosed herein or the clones deposited with the ATCC. Forexample, allelic variants and/or species homologs may be isolated andidentified by making suitable probes or primers from the sequencesprovided herein and screening a suitable nucleic acid source for allelicvariants and/or the desired homologue.

The present invention provides a polynucleotide comprising, oralternatively consisting of, the nucleic acid sequence of SEQ ID NO:Xand/or a cDNA contained in ATCC Deposit No. Z. The present inventionalso provides a polypeptide comprising, or alternatively, consisting of,the polypeptide sequence of SEQ ID NO:Y, a polypeptide encoded by SEQ IDNO:X, and/or a polypeptide encoded by a cDNA contained in ATCC depositNo. Z. Polynucleotides encoding a polypeptide comprising, oralternatively consisting of the polypeptide sequence of SEQ ID NO:Y, apolypeptide encoded by SEQ ID NO:X and/or a polypeptide encoded by thecDNA contained in ATCC Deposit No. Z, are also encompassed by theinvention. The present invention further encompasses a polynucleotidecomprising, or alternatively consisting of the complement of the nucleicacid sequence of SEQ ID NO:X, and/or the complement of the coding strandof the cDNA contained in ATCC Deposit No. Z. TABLE 1A 5′ NT First LastATCC NT 5′ NT 3′ NT of First AA AA AA First AA Last Deposit SEQ Total ofof 5′ NT AA of SEQ of of of AA cDNA No: Z and ID NT Clone Clone of StartSignal ID Sig Sig Secreted of Gene No. Clone ID Date Vector NO: X Seq.Seq. Seq. Codon Pep NO: Y Pep Pep Portion ORF 1 HACBT91 203917 Uni-ZAPXR 11 841 1 841 329 116 1 7 8 59 Apr. 08, 1999 2 HADDE71 203917 pSport112 667 1 667 250 250 117 1 28 29 139 Apr. 08, 1999 3 HADDJ13 203917pSport1 13 2318 1 2318 347 347 118 1 20 21 30 Apr. 08, 1999 4 HADMA77203917 pBluescript 14 1913 763 1913 992 119 1 14 15 23 Apr. 08, 1999 5HADMB15 203979 pBluescript 15 330 1 330 238 120 1 11 12 20 Apr. 29, 19996 HAGBQ12 203917 Uni-ZAP XR 16 743 1 743 171 171 121 1 19 20 21 Apr. 08,1999 7 HAGCC87 203917 Uni-ZAP XR 17 1592 479 1592 509 509 122 1 9 Apr.08, 1999 8 HAGHN57 203917 Uni-ZAP XR 18 2440 843 2440 900 900 123 1 10Apr. 08, 1999 9 HAGHR18 203917 Uni-ZAP XR 19 1142 1 1142 28 28 124 1 1718 32 Apr. 08, 1999 10 HAQAI92 203917 Uni-ZAP XR 20 607 1 602 250 250125 1 15 16 23 Apr. 08, 1999 11 HAQBG57 203917 Uni-ZAP XR 21 1048 1 1031170 126 1 15 16 56 Apr. 08, 1999 12 HAQCE11 203917 Uni-ZAP XR 22 596 1596 262 127 1 3 Apr. 08, 1999 13 HBAGD86 203917 pSport1 23 1713 293 1596521 521 128 1 18 19 19 Apr. 08, 1999 14 HBGBC29 203917 Uni-ZAP XR 241856 764 1829 1016 129 1 2 Apr. 08, 1999 15 HBJAB02 203917 Uni-ZAP XR 251693 1 1665 84 84 130 1 27 28 34 Apr. 08, 1999 16 HBMUH74 PTA-181Uni-ZAP XR 26 726 1 726 344 344 131 1 13 14 28 Jun. 07, 1999 17 HBNAX40203917 Uni-ZAP XR 27 2793 2455 2793 2497 2497 132 1 18 19 49 Apr. 08,1999 18 HBXCX15 203917 ZAP Express 28 1219 1 1219 1148 133 1 1 Apr. 08,1999 19 HCDBO32 203917 Uni-ZAP XR 29 2630 1480 2630 1669 1669 134 1 2526 71 Apr. 08, 1999 20 HCEEE79 203917 Uni-ZAP XR 30 1052 1 1052 131 131135 1 15 16 55 Apr. 08, 1999 21 HCEFZ82 203917 Uni-ZAP XR 31 1811 441781 215 215 136 1 16 17 265 Apr. 08, 1999 22 HCUCF89 203917 ZAP Express32 530 1 530 189 189 137 1 18 19 29 Apr. 08, 1999 23 HCWAE64 203917 ZAPExpress 33 471 1 471 410 138 1 5 Apr. 08, 1999 24 HCWUL09 203917 ZAPExpress 34 761 3 761 333 333 139 1 11 Apr. 08, 1999 25 HDPDI72 PTA-794pCMVSport 35 1550 1 1550 23 23 140 1 17 18 120 Sep. 27, 1999 3.0 26HDPFY18 203918 pCMVSport 36 2187 1 2187 161 161 141 1 7 Apr. 08, 19993.0 27 HDPIE44 PTA-794 pCMVSport 37 4115 1 4115 169 169 142 1 35 36 60Sep. 27, 1999 3.0 28 HDPIU94 203960 pCMVSport 38 2196 21 2196 208 208143 1 21 22 23 Apr. 26, 1999 3.0 29 HDPPD93 203960 pCMVSport 39 701 1701 28 28 144 1 12 Apr. 26, 1999 3.0 30 HDTLM18 203960 pCMVSport 40 5251 525 345 345 145 1 18 19 60 Apr. 26, 1999 2.0 31 HE6CS65 203960 Uni-ZAPXR 41 1526 1 1526 295 146 1 10 11 62 Apr. 26, 1999 32 HE8BQ49 203960Uni-ZAP XR 42 1875 12 1875 133 133 147 1 11 Apr. 26, 1999 33 HE9CY05203960 Uni-ZAP XR 43 1047 47 1047 55 55 148 1 21 22 235 Apr. 26, 1999 34HEAAW94 203979 Uni-ZAP XR 44 924 1 924 189 189 149 1 11 Apr. 29, 1999 35HEBFR46 203979 Uni-ZAP XR 45 1304 1 1304 200 200 150 1 26 27 29 Apr. 29,1999 36 HEOMC46 PTA-181 pSport1 46 939 1 939 154 151 1 40 41 51 Jun. 07,1999 37 HFCDW95 203979 Uni-ZAP XR 47 871 1 871 151 152 1 2 Apr. 29, 199938 HFEBO17 PTA-181 Uni-ZAP XR 48 990 1 990 136 136 153 1 17 18 27 Jun.07, 1999 39 HFIJA29 203969 pSport1 49 1275 110 1275 175 175 154 1 27 2882 Apr. 26, 1999 40 HFKFX64 203960 Uni-ZAP XR 50 779 1 779 127 127 155 114 Apr. 26, 1999 41 HGBER72 203960 Uni-ZAP XR 51 1316 1 1316 43 43 156 116 17 19 Apr. 26, 1999 42 HGBGN34 203960 Uni-ZAP XR 52 528 1 528 280 1571 32 33 48 Apr. 26, 1999 43 HGLBG15 203960 Uni-ZAP XR 53 778 1 778 191158 1 26 Apr. 26, 1999 44 HHFEC39 203960 Uni-ZAP XR 54 1302 1 1302 1211159 1 1 Apr. 26, 1999 45 HHSDI53 PTA-181 Uni-ZAP XR 55 1277 1 1277 221221 160 1 14 15 24 Jun. 07, 1999 46 HISBA38 203957 pSport1 56 1058 11058 169 169 161 1 32 33 36 Apr. 26, 1999 47 HJPBK28 203957 Uni-ZAP XR57 989 1 989 256 162 1 21 22 43 Apr. 26, 1999 48 HKABU43 203959pCMVSport 58 1919 581 1919 755 755 163 1 20 21 281 Apr. 26, 1999 2.0 49HLYGE16 203957 pSport1 59 752 1 752 406 406 164 1 17 18 73 Apr. 26, 199950 HLYGY91 203957 pSport1 60 640 1 640 211 211 165 1 20 21 42 Apr. 26,1999 51 HMCFH60 203957 Uni-ZAP XR 61 443 1 443 211 211 166 1 17 18 48Apr. 26, 1999 52 HMIAK10 203957 Uni-ZAP XR 62 1064 1 1064 195 195 167 122 23 31 Apr. 26, 1999 53 HMIBD93 203957 Uni-ZAP XR 63 1323 734 1323 983168 1 27 28 65 Apr. 26, 1999 54 HMWJF53 203957 Uni-ZAP XR 64 2288 9272101 1015 1015 169 1 30 31 38 Apr. 26, 1999 55 HNECL22 203957 Uni-ZAP XR65 2710 225 2710 472 472 170 1 23 24 34 Apr. 26, 1999 56 HNFAC50 203957Uni-ZAP XR 66 1442 428 1442 676 676 171 1 22 23 32 Apr. 26, 1999 57HNGEA34 203957 Uni-ZAP XR 67 1103 1 1103 58 172 1 24 25 44 Apr. 26, 199958 HNGIV64 203957 Uni-ZAP XR 68 1047 1 1047 221 173 1 8 Apr. 26, 1999 59HNGKT41 203959 Uni-ZAP XR 69 1048 1 1048 415 415 174 1 17 18 45 Apr. 26,1999 60 HNGNO53 203959 Uni-ZAP XR 70 825 1 825 467 467 175 1 15 16 34Apr. 26, 1999 61 HNHCT47 203959 Uni-ZAP XR 71 621 12 621 73 73 176 1 2021 39 Apr. 26, 1999 62 HNHKI74 203959 Uni-ZAP XR 72 817 1 817 127 127177 1 10 Apr. 26, 1999 63 HORBS82 203959 Uni-ZAP XR 73 1125 1 1125 21178 1 19 20 39 Apr. 26, 1999 64 HOUDE92 203918 Uni-ZAP XR 74 1284 1 128270 179 1 6 7 88 Apr. 08, 1999 65 HOUFS04 203959 Uni-ZAP XR 75 2927 4572882 520 520 180 1 42 43 72 Apr. 26, 1999 66 HOUHI25 PTA-793 Uni-ZAP XR76 1249 45 1102 188 188 181 1 20 Sep. 27, 1999 67 HPCAL26 203917 Uni-ZAPXR 77 3097 803 3097 1021 1021 182 1 23 24 30 Apr. 08, 1999 68 HPEBA84203959 Uni-ZAP XR 78 1160 250 1160 533 533 183 1 21 22 36 Apr. 26, 199969 HSAVA08 203918 Uni-ZAP XR 79 1061 1 1061 66 184 1 17 18 26 Apr. 08,1999 70 HSHAX04 203959 Uni-ZAP XR 80 1287 494 1285 42 185 1 6 7 57 Apr.26, 1999 71 HSKDR27 203918 Uni-ZAP XR 81 762 1 762 473 186 1 11 12 27Apr. 08, 1999 72 HSQBF66 203918 Uni-ZAP XR 82 1024 1 1024 229 187 1 2829 66 Apr. 08, 1999 73 HSRFD18 203959 Uni-ZAP XR 83 1889 1 1793 67 67188 1 20 21 28 Apr. 26, 1999 74 HSWBE76 203959 pCMVSport 84 874 250 710380 380 189 1 34 35 59 Apr. 26, 1999 3.0 75 HT3BF49 203959 Uni-ZAP XR 852174 1 2174 306 190 1 4 Apr. 26, 1999 76 HTEEW69 203959 Uni-ZAP XR 861282 110 1263 182 182 191 1 30 31 323 Apr. 26, 1999 77 HTEHU59 203959Uni-ZAP XR 87 1523 1 1504 170 170 192 1 19 20 34 Apr. 26, 1999 78HTEMQ17 203959 Uni-ZAP XR 88 1768 1 1768 446 446 193 1 12 Apr. 26, 199979 HTGBK95 203959 Uni-ZAP XR 89 1131 1 1131 271 271 194 1 12 13 16 Apr.26, 1999 80 HTLEM16 203959 Uni-ZAP XR 90 1915 1158 1755 1220 1220 195 127 28 69 Apr. 26, 1999 81 HTNBK13 203959 pBluescript 91 1160 295 1148534 534 196 1 16 17 21 Apr. 26, 1999 SK− 82 HTODN35 203918 Uni-ZAP XR 921594 1 1594 67 67 197 1 14 Apr. 08, 1999 83 HTPDU17 203959 Uni-ZAP XR 932078 1 2078 52 198 1 17 18 33 Apr. 26, 1999 84 HTTDN24 203959 Uni-ZAP XR94 1992 856 1992 1024 199 1 13 14 234 Apr. 26, 1999 85 HTTEE41 203959Uni-ZAP XR 95 1973 864 1968 1171 200 1 8 Apr. 26, 1999 86 HTXJD85 203959Uni-ZAP XR 96 1117 1 1117 211 211 201 1 16 17 31 Apr. 26, 1999 87HUVDJ48 203918 Uni-ZAP XR 97 1827 1 1827 196 196 202 1 5 Apr. 08, 199988 HWBBU75 203979 pCMVSport 98 2731 623 2731 783 783 203 1 22 23 51 Apr.29, 1999 3.0 89 HWHPB78 203959 pCMVSport 99 1346 1 1346 200 200 204 1 2324 66 Apr. 26, 1999 3.0 90 HWLBO67 203959 pSport1 100 536 1 536 42 42205 1 28 29 39 Apr. 26, 1999 91 HWLGP26 203959 pSport1 101 1898 10071835 1091 1091 206 1 23 24 71 Apr. 26, 1999 92 HILCA24 203960pBluescript 102 1982 153 1982 191 191 207 1 29 30 327 Apr. 26, 1999 SK−92 HILCA24 203960 pBluescript 108 1980 151 1976 189 189 213 1 29 30 327Apr. 26, 1999 SK− 93 HE2CA60 203960 Uni-ZAP XR 103 3034 1679 3034 17311731 208 1 7 Apr. 26, 1999 93 HE2CA60 203960 Uni-ZAP XR 109 1663 3081663 360 360 214 1 7 Apr. 26, 1999 94 HPWTF23 203979 Uni-ZAP XR 104 200894 1994 283 283 209 1 29 30 130 Apr. 29, 1999 94 HPWTF23 203979 Uni-ZAPXR 110 2008 94 1994 283 283 215 1 29 30 130 Apr. 29, 1999 95 HGCAC19203960 pSport1 105 5061 23 1475 317 210 1 9 Apr. 26, 1999 95 HGCAC19203960 pSport1 111 1771 21 1473 315 216 1 9 Apr. 26, 1999 95 HGCAC19203960 pSport1 112 1534 23 1534 317 217 1 9 Apr. 26, 1999 96 HEQBJ01203960 pCMVSport 106 2791 2346 2731 2603 2603 211 1 19 Apr. 26, 1999 3.096 HEQBJ01 203960 pCMVSport 113 2791 2346 2731 2603 2603 218 1 19 Apr.26, 1999 3.0 96 HEQBJ01 203960 pCMVSport 114 669 1 662 505 505 219 1 19Apr. 26, 1999 3.0 97 HBJHT01 203917 Uni-ZAP XR 107 1251 1 1251 200 200212 1 20 21 21 Apr. 08, 1999 97 HBJHT01 203917 Uni-ZAP XR 115 1252 11252 193 193 220 1 21 22 47 Apr. 08, 1999 98 HAGDW20 203917 Uni-ZAP XR108 1284 1 1284 238 238 215 1 16 17 17 Apr. 08, 1999 99 HTLIF11 203959Uni-ZAP XR 109 1968 860 1968 933 933 216 1 33 34 38 Apr. 26, 1999Table 1B (Comprised of Tables 1B.1 and 1B.2)

The first column in Table 1B.1 and Table 1B.2 provides the gene numberin the application corresponding to the clone identifier. The secondcolumn in Table 1B.1 and Table 1B.2 provides a unique “Clone ID:” forthe cDNA clone related to each contig sequence disclosed in Table 1B.1and Table 1B.2. This clone ID references the cDNA clone which containsat least the 5′ most sequence of the assembled contig and at least aportion of SEQ ID NO:X as determined by directly sequencing thereferenced clone. The referenced clone may have more sequence thandescribed in the sequence listing or the clone may have less. In thevast majority of cases, however, the clone is believed to encode afull-length polypeptide. In the case where a clone is not full-length, afull-length cDNA can be obtained by methods described elsewhere herein.The third column in Table 1B.1 and Table 1B.2 provides a unique “ContigID” identification for each contig sequence. The fourth column in Table1B.1 and Table 1B.2 provides the “SEQ ID NO:” identifier for each of thecontig polynucleotide sequences disclosed in Table 1B.

Table 1B.1

The fifth column in Table 1B.1, “ORF (From-To)”, provides the location(i.e., nucleotide position numbers) within the polynucleotide sequence“SEQ ID NO:X” that delineate the preferred open reading frame (ORF)shown in the sequence listing and referenced in Table 1B.1, column 6, asSEQ ID NO:Y. Where the nucleotide position number “To” is lower than thenucleotide position number “From”, the preferred ORF is the reversecomplement of the referenced polynucleotide sequence. The sixth columnin Table 1B.1 provides the corresponding SEQ ID NO:Y for the polypeptidesequence encoded by the preferred ORF delineated in column 5. In oneembodiment, the invention provides an amino acid sequence comprising, oralternatively consisting of, a polypeptide encoded by the portion of SEQID NO:X delineated by “ORF (From-To)”. Also provided are polynucleotidesencoding such amino acid sequences and the complementary strand thereto.Column 7 in Table 1B.1 lists residues comprising epitopes contained inthe polypeptides encoded by the preferred ORF (SEQ ID NO:Y), aspredicted using the algorithm of Jameson and Wolf, (1988) Comp. Appl.Biosci. 4:181-186. The Jameson-Wolf antigenic analysis was performedusing the computer program PROTEAN (Version 3.11 for the PowerMacIntosh, DNASTAR, Inc., 1228 South Park Street Madison, Wis.). Inspecific embodiments, polypeptides of the invention comprise, oralternatively consist of, at least one, two, three, four, five or moreof the predicted epitopes as described in Table 1B. It will beappreciated that depending on the analytical criteria used to predictantigenic determinants, the exact address of the determinant may varyslightly. Column 8 of Table 1B.1 (“Tissue Distribution”) is describedbelow in Table 1B.2 Column 5. Column 9 of Table 1B.1 (“Cytologic Band”)provides the chromosomal location of polynucleotides corresponding toSEQ ID NO:X. Chromosomal location was determined by finding exactmatches to EST and cDNA sequences contained in the NCBI (National Centerfor Biotechnology Information) UniGene database. Each sequence in theUniGene database is assigned to a “cluster”; all of the ESTs, cDNAs, andSTSs in a cluster are believed to be derived from a single gene.Chromosomal mapping data is often available for one or more sequence(s)in a UniGene cluster; this data (if consistent) is then applied to thecluster as a whole. Thus, it is possible to infer the chromosomallocation of a new polynucleotide sequence by determining its identitywith a mapped UniGene cluster.

A modified version of the computer program BLASTN (Altshul, et al., J.Mol. Biol. 215:403-410 (1990), and Gish, and States, Nat. Genet.3:266-272) (1993) was used to search the UniGene database for EST orcDNA sequences that contain exact or near-exact matches to apolynucleotide sequence of the invention (the ‘Query’). A sequence fromthe UniGene database (the ‘Subject’) was said to be an exact match if itcontained a segment of 50 nucleotides in length such that 48 of thosenucleotides were in the same order as found in the Query sequence. Ifall of the matches that met this criteria were in the same UniGenecluster, and mapping data was available for this cluster, it isindicated in Table 1B under the heading “Cytologic Band”. Where acluster had been further localized to a distinct cytologic band, thatband is disclosed; where no banding information was available, but thegene had been localized to a single chromosome, the chromosome isdisclosed.

Once a presumptive chromosomal location was determined for apolynucleotide of the invention, an associated disease locus wasidentified by comparison with a database of diseases which have beenexperimentally associated with genetic loci. The database used was theMorbid Map, derived from OMIM™ and National Center for BiotechnologyInformation, National Library of Medicine (Bethesda, Md.) 2000. If theputative chromosomal location of a polynucleotide of the invention(Query sequence) was associated with a disease in the Morbid Mapdatabase, an OMIM reference identification number was noted in column10, Table 1B.1, labelled “OMIM Disease Reference(s). Table 5 is a key tothe OMIM reference identification numbers (column 1), and provides adescription of the associated disease in Column 2.

Table 1B.2

Column 5, in Table 1B.2, provides an expression profile and librarycode: count for each of the contig sequences (SEQ ID NO:X) disclosed inTable 1B, which can routinely be combined with the information providedin Table 4 and used to determine the tissues, cells, and/or cell linelibraries which predominantly express the polynucleotides of theinvention. The first number in Table 1B.2, column 5 (preceding thecolon), represents the tissue/cell source identifier code correspondingto the code and description provided in Table 4. The second number incolumn 5 (following the colon) represents the number of times a sequencecorresponding to the reference polynucleotide sequence was identified inthe corresponding tissue/cell source. Those tissue/cell sourceidentifier codes in which the first two letters are “AR” designateinformation generated using DNA array technology. Utilizing thistechnology, cDNAs were amplified by PCR and then transferred, induplicate, onto the array. Gene expression was assayed throughhybridization of first strand cDNA probes to the DNA array. cDNA probeswere generated from total RNA extracted from a variety of differenttissues and cell lines. Probe synthesis was performed in the presence of³³P dCTP, using oligo (dT) to prime reverse transcription. Afterhybridization, high stringency washing conditions were employed toremove non-specific hybrids from the array. The remaining signal,emanating from each gene target, was measured using a Phosphorimager.Gene expression was reported as Phosphor Stimulating Luminescence (PSL)which reflects the level of phosphor signal generated from the probehybridized to each of the gene targets represented on the array. A localbackground signal subtraction was performed before the total signalgenerated from each array was used to normalize gene expression betweenthe different hybridizations. The value presented after “[array code]:”represents the mean of the duplicate values, following backgroundsubtraction and probe normalization. One of skill in the art couldroutinely use this information to identify normal and/or diseasedtissue(s) which show a predominant expression pattern of thecorresponding polynucleotide of the invention or to identifypolynucleotides which show predominant and/or specific tissue and/orcell expression. TABLE 1B.1 AA Tissue Distribution SEQ Library code:count OMIM Gene SEQ ID ORF ID (see Table IV for Cytologic Disease No:cDNA Clone ID Contig ID: NO: X (From-To) NO: Y Predicted EpitopesLibrary Codes) Band References(s): 1 HACBT91 789939 11 329-508 118Ser-49 to Lys-59. L0665: 5, L0743: 3, H0341: 2, L0761: 2, L0756: 2,S0356: 1, H0734: 1, S0280: 1, T0048: 1, H0271: 1, S0440: 1, H0641: 1,H0646: 1, L0770: 1, L0637: 1, L0800: 1, L0773: 1, L0648: 1, L0662: 1,L0768: 1, L0766: 1, L0649: 1, L0375: 1, L0784: 1, L0806: 1, L0655: 1,L0809: 1, H0672: 1, S0406: 1, L0747: 1, L0749: 1 and L0750: 1. 2 HADDE71839187 12 250-666 119 Pro-9 to Thr-14, L0769: 11, L0747: 9, Ser-37 toTrp-44, L0809: 6, S0408: 4, Gly-79 to Thr-85, L0770: 4, L0439: 4, Arg-88to Lys-139. L0752: 4, L0759: 4, L0766: 3, L0803: 3, L0666: 3, L0751: 3,L0780: 3, S0007: 2, H0619: 2, H0351: 2, H0333: 2, H0427: 2, H0052: 2,L0761: 2, L0662: 2, L0794: 2, L0774: 2, L0806: 2, L0659: 2, H0547: 2,H0521: 2, L0741: 2, L0745: 2, L0750: 2, L0779: 2, L0777: 2, H0543: 2,H0739: 1, H0171: 1, L3019: 1, H0483: 1, H0254: 1, H0125: 1, H0675: 1,H0580: 1, H0722: 1, H0733: 1, S0140: 1, H0261: 1, H0592: 1, H0586: 1,H0587: 1, H0257: 1, H0486: 1, L0022: 1, H0042: 1, H0581: 1, H0150: 1,H0086: 1, H0123: 1, T0010: 1, H0266: 1, H0673: 1, S0364: 1, H0087: 1,H0264: 1, H0494: 1, H0560: 1, H0538: 1, L0762: 1, L0772: 1, L0646: 1,L0765: 1, L0649: 1, L0805: 1, L0776: 1, L0657: 1, L0783: 1, L5622: 1,L0791: 1, L2654: 1, S0126: 1, H0435: 1, S0330: 1, H0522: 1, L0743: 1,L0744: 1, L0749: 1, L0786: 1, L0753: 1, L0755: 1, L0731: 1, L0758: 1,S0436: 1, S0011: 1 and S0192: 1. 3 HADDJ13 827273 13 347-439 120 H0427:1 4 HADMA77 783049 14  992-1063 121 L0439: 15, S0222: 4, 3 L0157: 4,L0769: 4, L0438: 3, L0745: 3, L0731: 3, L0758: 3, L0599: 3, H0443: 2,H0441: 2, S0010: 2, L0662: 2, L0744: 2, L0748: 2, L0750: 2, L0756: 2,L0777: 2, H0583: 1, L0005: 1, S0354: 1, H0675: 1, S0408: 1, H0619: 1,H0369: 1, H0574: 1, H0486: 1, H0390: 1, S0346: 1, H0309: 1, H0597: 1,T0003: 1, H0024: 1, S6028: 1, H0028: 1, T0006: 1, H0628: 1, H0135: 1,H0551: 1, S0438: 1, L0520: 1, L0768: 1, L0776: 1, L0559: 1, L0659: 1,L0384: 1, L0809: 1, H0144: 1, H0547: 1, L0746: 1, L0747: 1, L0757: 1 andS0434: 1. 5 HADMB15 847116 15 238-300 122 L0595: 2, L0442: 1, 7 L0005:1, L3653: 1, H0390: 1, H0081: 1, H0024: 1, L0770: 1, L5566: 1, L0651: 1,L0565: 1, L0439: 1, L0747: 1, L0752: 1, H0445: 1, L0592: 1 and L0599: 1.6 HAGBQ12 722205 16 171-236 123 L0754: 4, L0805: 2, L0777: 2, L0755: 2,S0010: 1, H0049: 1, L0163: 1, L0771: 1, L0775: 1 and L0776: 1. 7 HAGCC87638587 17 509-538 124 L0439: 4, L0519: 3, S0010: 2, T0010: 1, L0809: 1,H0682: 1, S0404: 1, S0406: 1, H0436: 1 and L0756: 1. 8 HAGHN57 773286 18900-932 125 H0521: 5, L0777: 5, S0376: 4, H0733: 3, H0156: 3, H0519: 3,H0436: 3, L0731: 3, H0656: 2, H0580: 2, H0747: 2, L3816: 2, H0036: 2,L0471: 2, H0090: 2, H0040: 2, H0551: 2, H0494: 2, S0438: 2, S0440: 2,H0529: 2, L0809: 2, H0144: 2, S0374: 2, H0593: 2, H0170: 1, L3643: 1,H0583: 1, H0650: 1, S0418: 1, S0358: 1, S0444: 1, L3645: 1, H0741: 1,H0734: 1, S0045: 1, S0476: 1, H0619: 1, H0586: 1, H0643: 1, H0632: 1,H0486: 1, S0280: 1, H0590: 1, S0010: 1, S0346: 1, H0581: 1, H0231: 1,H0046: 1, H0123: 1, S6028: 1, H0687: 1, S0003: 1, S0214: 1, H0252: 1,H0615: 1, H0212: 1, L0455: 1, S0366: 1, H0163: 1, H0038: 1, H0634: 1,T0067: 1, L0475: 1, H0560: 1, H0561: 1, S0464: 1, H0646: 1, S0426: 1,H0026: 1, L0790: 1, H0520: 1, H0435: 1, S0328: 1, H0539: 1, H0704: 1,S0027: 1, L0439: 1, L0750: 1, L0756: 1, L0757: 1, S0434: 1, L0581: 1,L0595: 1, H0543: 1 and H0423: 1. 9 HAGHR18 655435 19  28-126 126 L0717:1 and S0346: 1. 8 10 HAQAI92 688037 20 250-321 127 H0617: 5, H0606: 2,20, 4 L0744: 2, L0779: 2, H0295: 1, H0100: 1, S0440: 1, H0026: 1, L0762:1, L0504: 1, L0769: 1, L0764: 1, L0662: 1, L0649: 1, L0804: 1, L0787: 1,L0666: 1, L0663: 1, H0520: 1, L0748: 1, L0751: 1, L0752: 1 and S0436: 1.11 HAQBG57 837545 21 170-340 128 Trp-10 to Lys-18, H0295: 6, H0255: 2,Val-32 to Cys-38, H0392: 1, H0587: 1, Asp-41 to Thr-47. H0333: 1, H0545:1, H0328: 1, H0616: 1, S0142: 1, H0529: 1, L0659: 1, L0783: 1, L0528: 1,H0547: 1, S0136: 1, S0390: 1, L0754: 1, L0747: 1 and L0752: 1. 12HAQCE11 633730 22 262-273 129 H0295: 5 and L0438: 1. 13 HBAGD86 83879923 521-580 130 L0809: 4, L0766: 3, 2 L0439: 3, H0624: 2, H0411: 2,L0794: 2, L0749: 2, L0756: 2, L0005: 1, L3649: 1, S0476: 1, H0599: 1,L0471: 1, S0051: 1, T0010: 1, H0266: 1, S0150: 1, S0422: 1, L0637: 1,L0765: 1, L0803: 1, L0783: 1, L5622: 1, H0144: 1, H0672: 1, S0392: 1,L0748: 1, L0754: 1, L0779: 1, L0777: 1, L0731: 1 and L0759: 1. 14HBGBC29 691473 24 1016-1024 131 L0731: 20, L0747: 7, L0794: 6, L0764: 4,L0803: 4, L0759: 4, L0662: 3, L0774: 3, L0749: 3, L0756: 3, S0436: 3,S0360: 2, H0156: 2, H0046: 2, H0181: 2, L0766: 2, L0659: 2, L0809: 2,L0438: 2, S0126: 2, H0658: 2, L0439: 2, L0754: 2, L0777: 2, L0755: 2,L0757: 2, L0604: 2, S0242: 2, S0442: 1, S0376: 1, S0408: 1, L0717: 1,H0270: 1, H0263: 1, H0597: 1, H0123: 1, H0617: 1, H0551: 1, S0440: 1,H0647: 1, L0770: 1, L0769: 1, L0638: 1, L0775: 1, L0651: 1, L0527: 1,L0526: 1, L0789: 1, L0666: 1, L0665: 1, H0547: 1, H0435: 1, H0648: 1,S0330: 1, S0406: 1, H0627: 1, L0750: 1, L0780: 1, L0752: 1, L0758: 1,L0366: 1 and H0293: 1. 15 HBJAB02 837309 25  84-188 132 Arg-24 toAsp-31. S0434: 5, L0794: 3, 17 H0255: 2, H0318: 2, H0251: 2, L0764: 2,L0628: 2, L0809: 2, L0665: 2, H0658: 2, S0406: 2, L0361: 2, H0265: 1,H0685: 1, H0657: 1, H0483: 1, S0420: 1, S0442: 1, S0358: 1, H0729: 1,H0734: 1, S0132: 1, S0222: 1, T0082: 1, H0150: 1, H0083: 1, S0214: 1,H0252: 1, H0628: 1, T0041: 1, S0344: 1, H0529: 1, L0520: 1, L0535: 1,L0662: 1, L0387: 1, L0375: 1, L0518: 1, L0666: 1, L0663: 1, H0726: 1,H0519: 1, H0670: 1, H0660: 1, L0602: 1, L0747: 1, L0777: 1, L0601: 1,S0276: 1, H0423: 1 and H0422: 1. 16 HBMUH74 866160 26 344-430 133 L0754:3, L0777: 3, L0439: 2, S0116: 1, H0341: 1, H0661: 1, H0038: 1, H0412: 1,L0761: 1, L0667: 1, L0764: 1, L0788: 1, H0435: 1, L0749: 1, L0779: 1 andL0758: 1. 17 HBNAX40 834801 27 2497-2646 134 L0439: 11, H0171: 5, L0754:5, L0748: 4, H0052: 3, L0662: 3, L0756: 3, L0755: 3, H0422: 3, S0360: 2,L0738: 2, H0032: 2, L0803: 2, L0655: 2, L0789: 2, L0605: 2, H0423: 2,H0638: 1, T0114: 1, H0156: 1, L0021: 1, S0010: 1, H0581: 1, H0046: 1,L0471: 1, H0014: 1, H0356: 1, H0188: 1, H0553: 1, H0591: 1, S0386: 1,T0042: 1, H0625: 1, H0641: 1, S0142: 1, L0598: 1, L0369: 1, L0640: 1,L0375: 1, L0654: 1, L0659: 1, L0783: 1, L0663: 1, L0665: 1, H0144: 1,L0352: 1, H0547: 1, H0648: 1, H0672: 1, H0555: 1, H0436: 1, L0749: 1,L0779: 1, L0731: 1, L0758: 1, L0759: 1, H0445: 1, L0366: 1 and H0668: 1.18 HBXCX15 637542 28 72-77 135 S0038: 3, H0438: 1, L0363: 1 andS0053: 1. 19 HCDBO32 831942 29 1669-1884 136 Val-2 to Thr-7. L0803: 7,L0766: 4, L0777: 4, L0666: 3, H0521: 3, T0115: 2, H0687: 2, L0809: 2,L0659: 2, L0754: 2, L0779: 2, L0759: 2, L3643: 1, H0341: 1, H0747: 1,H0749: 1, L3387: 1, H0351: 1, S0222: 1, H0441: 1, L3816: 1, H0013: 1,S0280: 1, H0251: 1, H0544: 1, H0123: 1, H0354: 1, H0266: 1, H0622: 1,H0090: 1, T0041: 1, H0641: 1, S0422: 1, L0371: 1, L0646: 1, L0662: 1,L0774: 1, L0805: 1, L0653: 1, L0659: 1, L0635: 1, L0526: 1, L0783: 1,L0663: 1, L0664: 1, L0665: 1, H0144: 1, T0068: 1, L3811: 1, H0519: 1,H0682: 1, S0152: 1, S0136: 1, L0744: 1, L0780: 1, L0758: 1, H0444: 1,H0445: 1, L0590: 1, L0594: 1, S0026: 1 and H0422: 1. 20 HCEEE79 56060930 131-298 137 Gly-35 to Pro-41. H0052: 1 21 HCEFZ82 831745 31  215-1012138 Tyr-30 to Gln-35, L0748: 11, H0052: 8, Asn-114 to Lys-119, L0803: 8,L0749: 8, Ser-161 to Ala-171, L0770: 7, L0439: 5, Arg-183 to Gly-189,L0746: 4, L0752: 4, Pro-205 to Ala-211, L3811: 3, H0575: 2, Lys-231 toTrp-237, H0012: 2, H0031: 2, Gly-246 to Lys-265. L0768: 2, L0804: 2,L0774: 2, L0740: 2, L0747: 2, L0756: 2, L0779: 2, L0757: 2, L0758: 2,L0592: 2, L0593: 2, H0556: 1, S0420: 1, S0376: 1, H0441: 1, H0632: 1,S0010: 1, T0115: 1, H0545: 1, H0009: 1, H0620: 1, H0197: 1, H0051: 1,S0388: 1, S0051: 1, H0252: 1, H0032: 1, L0455: 1, H0591: 1, H0272: 1,L0564: 1, S0438: 1, S0344: 1, L0373: 1, L0646: 1, L0794: 1, L0766: 1,L0805: 1, L0776: 1, L0783: 1, L0809: 1, S0374: 1, H0522: 1, H0134: 1,L0780: 1, L0731: 1, L0759: 1, S0436: 1, L0597: 1, H0543: 1, H0423: 1 andL0600: 1. 22 HCUCF89 637986 32 189-278 139 Gly-14 to Asp-21. H0306: 1,L0761: 1 and H0436: 1. 23 HCWAE64 535893 33 410-427 140 H0305: 1 9 24HCWUL09 834722 34 333-368 141 H0305: 9, H0589: 2 and 6 S0001: 1. 25HDPDI72 897277 35  23-385 142 Arg-63 to Phe-72, H0521: 2 and H0580: 1.10 Ile-114 to Phe-120. 26 HDPFY18 779450 36 161-184 143 S0114: 1, H0427:1, 11 H0123: 1, H0688: 1, H0264: 1, L0547: 1, L0518: 1, L3811: 1, H0521:1, H0445: 1 and H0543: 1. 27 HDPIE44 899328 37 169-351 144 L3811: 7,L0439: 7, L0794: 6, L0759: 5, L0591: 5, L0803: 4, L0805: 4, L2653: 4,H0547: 4, L0748: 4, L0755: 4, L0596: 4, H0171: 3, L2886: 3, S0376: 3,S0007: 3, H0024: 3, H0355: 3, H0615: 3, H0428: 3, H0090: 3, H0623: 3,S0422: 3, L0766: 3, L0659: 3, H0144: 3, H0658: 3, S0406: 3, L0749: 3,L0758: 3, S0436: 3, H0624: 2, H0717: 2, S0358: 2, S0360: 2, H0486: 2,L2636: 2, H0427: 2, S0010: 2, H0052: 2, H0251: 2, H0687: 2, H0622: 2,H0553: 2, H0644: 2, H0591: 2, S0438: 2, L0770: 2, L0769: 2, L0662: 2,S0374: 2, L3827: 2, L3828: 2, S0126: 2, H0689: 2, H0670: 2, H0521: 2,S0028: 2, L0744: 2, L0740: 2, L0754: 2, L0752: 2, L0593: 2, S0192: 2,H0506: 2, H0265: 1, H0294: 1, H0656: 1, S0212: 1, L0481: 1, S0418: 1,L0005: 1, L1563: 1, S0356: 1, S0442: 1, S0408: 1, H0733: 1, H0208: 1,S0045: 1, H0619: 1, L3261: 1, L0717: 1, S0222: 1, H0455: 1, L2647: 1,L3653: 1, H0013: 1, H0599: 1, S0474: 1, H0196: 1, H0263: 1, H0046: 1,H0172: 1, H0050: 1, L0471: 1, H0012: 1, H0620: 1, H0014: 1, H0051: 1,H0356: 1, H0375: 1, S0316: 1, H0328: 1, H0688: 1, L0483: 1, S0364: 1,S0366: 1, H0135: 1, H0163: 1, H0038: 1, H0040: 1, H0634: 1, H0551: 1,H0488: 1, T0042: 1, H0494: 1, S0016: 1, H0625: 1, H0561: 1, S0440: 1,L2270: 1, S0344: 1, L3818: 1, H0538: 1, L0598: 1, L0638: 1, L0761: 1,L0641: 1, L0626: 1, L0804: 1, L0375: 1, L0784: 1, L0523: 1, L0806: 1,L0776: 1, L0526: 1, L0809: 1, L5622: 1, L0789: 1, L0793: 1, L4559: 1,L0663: 1, L4560: 1, L3871: 1, L2657: 1, L2655: 1, L2263: 1, L2258: 1,L3826: 1, L3204: 1, H0683: 1, H0672: 1, H0651: 1, S0330: 1, H0539: 1,L3832: 1, H0555: 1, S0390: 1, S0206: 1, L0747: 1, L0779: 1, S0308: 1,L0604: 1 and H0423: 1. 28 HDPIU94 813352 38 208-279 145 L0748: 6, L0666:5, L0665: 5, L0768: 4, L0777: 4, L0595: 4, H0352: 4, S0045: 3, H0124: 3,L0774: 3, S0028: 3, L0439: 3, L0756: 3, L0592: 3, S0376: 2, S0360: 2,H0619: 2, S0222: 2, L3816: 2, H0635: 2, H0036: 2, H0052: 2, H0046: 2,L0041: 2, S0312: 2, H0551: 2, L3815: 2, L0764: 2, L0663: 2, H0144: 2,L3825: 2, L0751: 2, L0754: 2, L0745: 2, L0731: 2, L0589: 2, H0653: 2,H0136: 2, H0216: 2, H0624: 1, S6024: 1, S0430: 1, H0656: 1, H0255: 1,S0046: 1, H0747: 1, H0645: 1, L2759: 1, H0013: 1, H0156: 1, H0575: 1,H0050: 1, S0050: 1, H0373: 1, H0687: 1, S0314: 1, S0250: 1, H0031: 1,H0135: 1, H0634: 1, H0616: 1, H0380: 1, H0264: 1, H0433: 1, H0059: 1,L0351: 1, S0422: 1, L0800: 1, L0662: 1, L0626: 1, L0766: 1, L0803: 1,L0375: 1, L0655: 1, L0659: 1, L0783: 1, L0809: 1, L0664: 1, L2263: 1,L2258: 1, L2259: 1, H0726: 1, L3826: 1, L3827: 1, H0648: 1, S0152: 1,L3833: 1, H0521: 1, S0390: 1, S3014: 1, S0027: 1, L0749: 1, L0750: 1,L0780: 1, L0758: 1, L0759: 1, S0260: 1 and L0366: 1. 29 HDPPD93 63758839 28-66 146 L0794: 6, L0748: 6, L0556: 5, L0771: 5, H0052: 4, L0756: 4,L0596: 4, H0265: 3, H0341: 3, H0587: 3, L0662: 3, L0803: 3, L0790: 3,S0152: 3, L0750: 3, S0114: 2, S0360: 2, H0318: 2, L0471: 2, L0369: 2,L0763: 2, L0770: 2, L0764: 2, L0766: 2, L0774: 2, L0378: 2, L0789: 2,L0666: 2, L3825: 2, H0547: 2, L0747: 2, L0777: 2, L0581: 2, H0543: 2,H0422: 2, S0218: 1, H0255: 1, S0418: 1, S0354: 1, S0376: 1, S0408: 1,L3649: 1, S0045: 1, H0747: 1, H0619: 1, L0717: 1, S0222: 1, H0431: 1,H0586: 1, H0013: 1, H0069: 1, S0049: 1, H0009: 1, H0071: 1, H0083: 1,H0428: 1, T0006: 1, H0424: 1, H0213: 1, H0644: 1, H0628: 1, H0135: 1,H0163: 1, H0616: 1, H0413: 1, H0059: 1, H0561: 1, S0448: 1, H0647: 1,L3818: 1, S0002: 1, L0769: 1, L0800: 1, L0363: 1, L0767: 1, L0768: 1,L0649: 1, L0804: 1, L0806: 1, L0657: 1, L0512: 1, L0659: 1, L0384: 1,L0647: 1, L5622: 1, L5623: 1, L0664: 1, L0665: 1, S0374: 1, L3828: 1,S0126: 1, H0711: 1, H0658: 1, H0666: 1, H0539: 1, H0753: 1, H0521: 1,H0522: 1, S0406: 1, H0555: 1, H0436: 1, L0439: 1, L0749: 1, S0031: 1,L0595: 1, H0136: 1, H0542: 1, H0423: 1, S0424: 1 and H0352: 1. 30HDTLM18 836057 40 345-524 147 Ile-47 to Ser-60. H0486: 1 and L0599: 1. 631 HE6CS65 762960 41 295-483 148 Trp-50 to Leu-55. L0777: 16, L0748: 12,L0757: 11, L0776: 8, L0439: 7, H0692: 6, H0046: 6, L0769: 5, L0666: 5,S0242: 5, L0770: 4, L0771: 4, L0438: 4, L0743: 4, L0754: 4, L0749: 4,L0758: 4, S0444: 3, H0051: 3, L0662: 3, L0766: 3, S0378: 3, L0751: 3,L0747: 3, S0436: 3, S0212: 2, H0637: 2, H0497: 2, H0545: 2, H0050: 2,H0031: 2, H0090: 2, H0100: 2, L0768: 2, L0561: 2, L0774: 2, L0775: 2,L0657: 2, H0670: 2, S3014: 2, L0744: 2, L0752: 2, L0581: 2, H0624: 1,H0170: 1, H0713: 1, H0717: 1, S6024: 1, T0049: 1, H0255: 1, S0356: 1,S0442: 1, S0358: 1, S0376: 1, S0360: 1, H0619: 1, L3651: 1, L0717: 1,S0278: 1, H0391: 1, H0333: 1, H0013: 1, H0053: 1, H0575: 1, S0346: 1,H0052: 1, H0263: 1, H0596: 1, L0738: 1, H0572: 1, H0510: 1, H0266: 1,H0688: 1, H0039: 1, H0622: 1, H0111: 1, H0181: 1, H0617: 1, H0032: 1,H0169: 1, H0634: 1, H0087: 1, H0412: 1, S0450: 1, S0440: 1, L0639: 1,L0637: 1, L0372: 1, L0646: 1, L0651: 1, L0806: 1, L0659: 1, L0792: 1,L0664: 1, L0665: 1, S0216: 1, H0144: 1, H0697: 1, S0374: 1, L3812: 1,H0520: 1, H0547: 1, H0658: 1, H0660: 1, H0648: 1, H0521: 1, H0696: 1,S0027: 1, S0028: 1, L0741: 1, L0740: 1, L0779: 1, L0731: 1, L0759: 1,S0260: 1, H0445: 1, S0434: 1, L0362: 1 and L0366: 1. 32 HE8BQ49 58944342 133-168 149 H0013: 2 33 HE9CY05 834826 43  55-762 150 Ser-18 toGlu-24, L0748: 8, L0749: 3, Leu-121 to Asp-134, L0471: 2 and H0144: 1.Pro-142 to Ala-154, Cys-185 to Val-203. 34 HEAAW94 847340 44 189-224 151L0439: 26, L0438: 20, L0748: 17, L0766: 16, L0754: 16, L0731: 16, L0556:9, L0740: 8, S0222: 7, H0090: 7, L0774: 7, H0144: 6, L0745: 6, L0779: 6,L0777: 6, L0758: 6, S0003: 5, L0662: 5, L0794: 5, S0418: 4, H0575: 4,L0776: 4, L0751: 4, L0749: 4, L0756: 4, L0780: 4, L0752: 4, L0591: 4,H0423: 4, H0341: 3, S0360: 3, H0369: 3, H0156: 3, L0435: 3, L0769: 3,L0775: 3, L0809: 3, L0666: 3, H0547: 3, S0328: 3, H0521: 3, L0747: 3,L0750: 3, H0543: 3, H0171: 2, S0442: 2, S0354: 2, S0358: 2, S0132: 2,S0278: 2, H0497: 2, T0039: 2, H0706: 2, H0036: 2, S0474: 2, H0596: 2,H0009: 2, H0375: 2, S6028: 2, H0266: 2, S0214: 2, H0328: 2, H0622: 2,H0644: 2, H0591: 2, H0413: 2, T0041: 2, L0770: 2, L0796: 2, L0363: 2,L0806: 2, L0659: 2, L0542: 2, L0783: 2, L0791: 2, L0665: 2, L3811: 2,H0518: 2, S3014: 2, S0028: 2, H0595: 2, S0434: 2, S0436: 2, L0589: 2,L0604: 2, L0601: 2, H0542: 2, S0424: 2, L0411: 1, H0624: 1, H0170: 1,L0615: 1, H0265: 1, S0342: 1, S6024: 1, S0134: 1, H0657: 1, S0212: 1,H0450: 1, S0420: 1, L0005: 1, S0444: 1, H0580: 1, H0741: 1, S0045: 1,S0476: 1, H0393: 1, H0550: 1, H0441: 1, H0370: 1, H0600: 1, H0586: 1,H0587: 1, H0486: 1, H0250: 1, H0635: 1, L0021: 1, S0182: 1, L0563: 1,H0052: 1, H0309: 1, H0046: 1, L0157: 1, H0566: 1, H0081: 1, H0050: 1,H0057: 1, S0051: 1, S0318: 1, S0316: 1, H0687: 1, S0250: 1, H0615: 1,H0428: 1, H0039: 1, L0483: 1, H0553: 1, L0055: 1, H0032: 1, H0673: 1,S0366: 1, H0038: 1, H0634: 1, H0380: 1, H0488: 1, H0623: 1, H0059: 1,S0112: 1, L0351: 1, H0641: 1, H0646: 1, S0344: 1, S0002: 1, 50426: 1,L0638: 1, L4747: 1, L0761: 1, L0627: 1, L0372: 1, L0646: 1, L0374: 1,L0644: 1, L0771: 1, L0767: 1, L0768: 1, L0549: 1, L0550: 1, L0533: 1,L0804: 1, L0650: 1, L0375: 1, L0651: 1, L0523: 1, L0655: 1, L0782: 1,L0790: 1, L0663: 1, L0664: 1, S0148: 1, L0352: 1, H0520: 1, H0519: 1,S0126: 1, H0672: 1, H0754: 1, S0152: 1, H0522: 1, H0696: 1, S0044: 1,S0406: 1, L0612: 1, S3012: 1, L0746: 1, L0786: 1, L0759: 1, H0445: 1,L0684: 1, L0608: 1, H0667: 1, S0276: 1 and H0422: 1. 35 HEBFR46 84706445 200-289 152 Met-1 to Thr-6. H0457: 10, H0550: 5, 7 H0436: 5, H0549:4, H0616: 4, L0519: 4, H0556: 3, H0580: 3, S0007: 3, S0046: 3, L0809: 3,L0747: 3, L0777: 3, S0436: 3, H0295: 2, T0040: 2, H0266: 2, L0761: 2,L0783: 2, L0789: 2, H0658: 2, H0521: 2, L0753: 2, L0731: 2, L0596: 2,H0543: 2, S0040: 1, S0116: 1, S0282: 1, H0662: 1, H0402: 1, H0125: 1,L0534: 1, L0562: 1, S0356: 1, S0358: 1, H0749: 1, L3816: 1, H0559: 1,H0069: 1, H0599: 1, H0618: 1, H0253: 1, H0581: 1, H0546: 1, H0123: 1,S0051: 1, H0083: 1, H0687: 1, H0284: 1, H0124: 1, H0038: 1, H0551: 1,H0623: 1, S0038: 1, T0041: 1, S0440: 1, S0150: 1, L3818: 1, S0002: 1,L0763: 1, L0769: 1, L5575: 1, L0627: 1, L0800: 1, L0662: 1, L0803: 1,L0793: 1, L0666: 1, L2264: 1, L3825: 1, L3827: 1, L3828: 1, H0547: 1,H0519: 1, H0539: 1, S0037: 1, S0206: 1, L0748: 1, L0749: 1, H0595: 1,L0593: 1, S0194: 1 and S0276: 1. 36 HEOMC46 866171 46 154-309 153 Ser-5to Thr-10, H0749: 2, H0581: 2, Cys-36 to Glu-51. H0457: 2 and S0116: 1.37 HFCDW95 847383 47 151-159 154 L0766: 9, L0803: 8, 7 H0341: 7, H0521:7, L0770: 6, L0771: 6, L0754: 6, L0752: 6, L0731: 6, S0354: 5, S0422: 5,L0662: 5, H0519: 5, L0439: 5, L0779: 5, L0758: 5, S0436: 5, H0009: 4,H0673: 4, L0800: 4, L0521: 4, L0805: 4, L0659: 4, L0809: 4, L0438: 4,S0028: 4, L0485: 4, L0601: 4, H0657: 3, H0638: 3, S0418: 3, H0733: 3,S0007: 3, S0222: 3, L3655: 3, S0214: 3, H0529: 3, L0369: 3, L0794: 3,L0649: 3, L0776: 3, L0665: 3, L3391: 3, H0144: 3, H0670: 3, S0406: 3,L0756: 3, L0755: 3, L0759: 3, H0667: 3, S0420: 2, S0358: 2, S0360: 2,H0580: 2, H0729: 2, S0476: 2, H0645: 2, S6026: 2, S0300: 2, L2543: 2,H0156: 2, S0010: 2, H0085: 2, H0178: 2, H0375: 2, S6028: 2, H0266: 2,S0003: 2, H0428: 2, H0169: 2, S0036: 2, H0090: 2, H0634: 2, L0640: 2,L0769: 2, L0637: 2, L0761: 2, L0646: 2, L0774: 2, L0775: 2, L0806: 2,L0807: 2, L0783: 2, L5622: 2, L0666: 2, L2653: 2, L2264: 2, H0725: 2,L3827: 2, H0547: 2, H0435: 2, H0659: 2, S0380: 2, S3014: 2, S0206: 2,L0740: 2, L0753: 2, L0757: 2, S0434: 2, L0596: 2, H0668: 2, H0542: 2,H0170: 1, H0556: 1, S0342: 1, H0713: 1, H0717: 1, H0716: 1, H0294: 1,L2877: 1, T0049: 1, S0218: 1, L2910: 1, L2915: 1, L2991: 1, S0282: 1,S0400: 1, L2289: 1, H0241: 1, H0402: 1, L0534: 1, L0539: 1, S0376: 1,S0444: 1, S0410: 1, H0329: 1, H0722: 1, H0728: 1, H0734: 1, S0045: 1,H0749: 1, H0406: 1, H0411: 1, H0443: 1, S0220: 1, H0441: 1, H0415: 1,H0438: 1, H0362: 1, H0333: 1, H0574: 1, L0623: 1, H0486: 1, L1819: 1,T0060: 1, H0013: 1, H0427: 1, H0599: 1, H0575: 1, H0318: 1, S0474: 1,H0581: 1, H0374: 1, T0110: 1, H0150: 1, H0563: 1, H0050: 1, H0014: 1,S0388: 1, S0051: 1, H0687: 1, H0039: 1, H0030: 1, H0553: 1, H0644: 1,H0628: 1, H0166: 1, L0455: 1, H0708: 1, S0366: 1, H0591: 1, H0038: 1,H0551: 1, H0380: 1, H0623: 1, S0386: 1, T0042: 1, H0494: 1, H0561: 1,S0370: 1, H0509: 1, H0130: 1, H0641: 1, L0598: 1, L0763: 1, L0638: 1,L0796: 1, L0667: 1, L0630: 1, L0373: 1, L0641: 1, L0773: 1, L5569: 1,L5574: 1, L0381: 1, L0655: 1, L0607: 1, L0661: 1, L0527: 1, L0518: 1,L5623: 1, L0787: 1, L0789: 1, L0790: 1, L0792: 1, L0793: 1, L0710: 1,L2262: 1, L2380: 1, L2412: 1, S0374: 1, H0520: 1, S0126: 1, H0648: 1,H0710: 1, H0522: 1, H0696: 1, H0555: 1, H0436: 1, S0392: 1, S3012: 1,L0742: 1, L0745: 1, L0747: 1, L0749: 1, L0777: 1, L0593: 1, L0366: 1,S0026: 1, S0242: 1, S0276: 1, S0196: 1, H0543: 1, H0423: 1, S0460: 1,L3357: 1 and L3372: 1. 38 HFEBO17 852218 48 136-219 155 L0803: 4, L0438:4, L0766: 2, L0526: 2, H0659: 2, S0444: 1, S0408: 1, H0421: 1, H0081: 1,H0050: 1, S0370: 1, L0770: 1, L0637: 1, L0646: 1, L0800: 1, L0662: 1,L0804: 1, L0607: 1, L0659: 1, L0790: 1, L0665: 1, L0352: 1, H0648: 1,H0651: 1, S0328: 1, H0436: 1, L0749: 1, L0750: 1, L0777: 1, L0752: 1,L0599: 1, S0242: 1 and H0422: 1. 39 HFIJA29 839206 49 175-423 156 Ser-36to Ser-42, L0766: 20, L0754: 10, 6, 7 Lys-54 to Ser-69. L0776: 8, L0803:5, L0749: 5, H0661: 4, L0740: 4, L0751: 4, L0608: 4, L0770: 3, L0750: 3,L0761: 2, L0794: 2, L0806: 2, L0783: 2, L0809: 2, L0789: 2, L0438: 2,S0404: 2, L0745: 2, L0777: 2, L0755: 2, L0758: 2, S0134: 1, H0638: 1,S0358: 1, S0408: 1, S0045: 1, S0046: 1, H0581: 1, H0023: 1, H0355: 1,S0214: 1, L0055: 1, H0477: 1, L0796: 1, L3905: 1, L0772: 1, L0646: 1,L0800: 1, L0642: 1, L0764: 1, L0773: 1, L0363: 1, L0768: 1, L0804: 1,L0774: 1, L0805: 1, L0655: 1, L0807: 1, L0526: 1, L0531: 1, H0689: 1,S0378: 1, S0152: 1, S0406: 1, H0732: 1, L0742: 1, L0748: 1, L0747: 1,L0753: 1, L0757: 1, S0194: 1, H0422: 1 and S0424: 1. 40 HFKFX64 56683550 127-171 157 H0012: 3 and L0809: 1. 18, N/A 41 HGBER72 826710 51 43-102 158 L0766: 12, H0436: 9, 9 H0543: 8, L0769: 6, L0749: 6, L0731:6, H0556: 5, L0655: 5, S0434: 5, L0439: 4, L0758: 4, S0114: 3, H0255: 3,L3904: 3, L0794: 3, L0776: 3, L0659: 3, L0783: 3, L0809: 3, L0751: 3,H0423: 3, S0358: 2, S0360: 2, S0007: 2, H0549: 2, H0550: 2, H0486: 2,H0014: 2, S0388: 2, H0424: 2, H0031: 2, H0628: 2, L5575: 2, L0771: 2,L0662: 2, L0791: 2, L0793: 2, L2265: 2, L0438: 2, S0328: 2, L0740: 2,L0756: 2, H0265: 1, H0686: 1, S0134: 1, H0657: 1, H0656: 1, S0001: 1,S0418: 1, L0619: 1, S0442: 1, S0408: 1, H0730: 1, H0749: 1, H0619: 1,H0351: 1, S0222: 1, H0592: 1, H0586: 1, T0060: 1, H0250: 1, H0618: 1,H0318: 1, H0052: 1, H0251: 1, H0545: 1, H0569: 1, H0012: 1, H0201: 1,S6028: 1, H0288: 1, H0622: 1, T0023: 1, L0483: 1, H0604: 1, S0036: 1,H0135: 1, H0040: 1, H0264: 1, S0039: 1, L0640: 1, L0763: 1, L0770: 1,L0761: 1, L0648: 1, L0521: 1, L0533: 1, L0774: 1, L0775: 1, L0376: 1,L0378: 1, L0629: 1, L5623: 1, L0666: 1, L0664: 1, S0310: 1, L3811: 1,H0689: 1, H0659: 1, H0660: 1, H0648: 1, H0696: 1, H0576: 1, S0028: 1,L0742: 1, L0750: 1, L0779: 1, L0777: 1, L0752: 1, L0591: 1, L0601: 1,H0542: 1 and H0506: 1. 42 HGBGN34 648659 52 280-426 159 Asn-2 to Val-8.L0747: 5, H0716: 2, H0427: 2, S0280: 2, H0662: 1, S0444: 1, H0441: 1,H0492: 1, T0001: 1, H0014: 1, H0030: 1, H0674: 1, L5575: 1, L0659: 1,S0330: 1, L0752: 1 and S0436: 1. 43 HGLBG15 701990 53 191-271 160 L0803:19, S0474: 17, 7 L0748: 13, S0408: 11, H0351: 11, L2669: 11, L2504: 10,L0770: 10, L0805: 9, L0439: 9, L0754: 9, S0422: 8, L0809: 8, L0794: 6,L0755: 6, L0731: 6, L0758: 6, S0360: 5, H0265: 4, S0414: 4, H0581: 4,H0271: 4, L0771: 4, L0804: 4, L0776: 4, L0659: 4, L0666: 4, L0749: 4,L0591: 4, H0327: 3, L0806: 3, L0655: 3, L0636: 3, L0565: 3, H0436: 3,L0777: 3, S0434: 3, S0436: 3, S0412: 3, S0116: 2, S0212: 2, H0661: 2,S0358: 2, S0132: 2, L3388: 2, S0222: 2, H0123: 2, H0266: 2, S0003: 2,H0031: 2, H0551: 2, L0598: 2, L0638: 2, L0662: 2, L0766: 2, L0650: 2,L0664: 2, L0665: 2, S0374: 2, H0547: 2, H0435: 2, H0660: 2, S0378: 2,L0740: 2, L0750: 2, L0756: 2, L0752: 2, H0624: 1, H0556: 1, S0040: 1,H0295: 1, S0114: 1, H0656: 1, L2904: 1, S0001: 1, H0671: 1, S0356: 1,S0442: 1, S0376: 1, S0444: 1, H0675: 1, H0730: 1, H0741: 1, H0208: 1,S0045: 1, S0476: 1, H0393: 1, H0550: 1, H0431: 1, H0586: 1, H0642: 1,L3499: 1, H0013: 1, H0069: 1, H0635: 1, H0427: 1, H0156: 1, L0021: 1,H0042: 1, T0082: 1, H0590: 1, S0010: 1, H0318: 1, H0251: 1, H0596: 1,L0040: 1, H0545: 1, H0457: 1, H0009: 1, N0006: 1, L0471: 1, H0024: 1,H0051: 1, H0083: 1, H0061: 1, S0316: 1, H0687: 1, H0688: 1, H0644: 1,H0617: 1, H0591: 1, H0038: 1, H0040: 1, H0616: 1, H0264: 1, H0100: 1,H0561: 1, S0440: 1, L2270: 1, S0426: 1, H0529: 1, L0763: 1, L0637: 1,L0761: 1, L0373: 1, L0646: 1, L0800: 1, L0764: 1, L0626: 1, L0653: 1,L0606: 1, L0661: 1, L0515: 1, L5622: 1, L0789: 1, L0792: 1, L0793: 1,L0663: 1, L2653: 1, L2257: 1, L2259: 1, L2261: 1, L2654: 1, H0144: 1,L0438: 1, H0520: 1, H0519: 1, H0659: 1, H0658: 1, S0328: 1, S0330: 1,S0380: 1, H0710: 1, H0521: 1, H0522: 1, H0696: 1, S0044: 1, S0406: 1,S0027: 1, L0742: 1, L0744: 1, L0751: 1, L0745: 1, L0747: 1, L0779: 1,L0780: 1, L0757: 1, L0759: 1, S0031: 1, S0260: 1, L0596: 1, L0605: 1,L0595: 1, S0026: 1, S0192: 1, S0242: 1, H0542: 1, H0543: 1, S0042: 1 andS0462: 1. 44 HHFEC39 609873 54 1211-1216 161 L0805: 21, L0776: 19, 6L0751: 14, L0759: 13, L0770: 11, H0615: 8, L0803: 8, L0438: 7, L0439: 7,L0758: 7, L0769: 6, L0521: 6, L0754: 6, H0624: 5, L0486: 5, L0500: 5,L0807: 5, L0740: 5, L0591: 5, H0716: 4, H0351: 4, L0774: 4, H0144: 4,S0328: 4, L0748: 4, L0745: 4, L0604: 4, S0414: 3, H0013: 3, S0250: 3,H0428: 3, H0644: 3, H0591: 3, L0659: 3, L0783: 3, L0809: 3, L0791: 3,L0793: 3, L0666: 3, H0670: 3, L0779: 3, L0777: 3, L0731: 3, H0583: 2,S0408: 2, L0717: 2, S0280: 2, S0010: 2, H0052: 2, H0024: 2, T0010: 2,H0594: 2, H0266: 2, H0031: 2, H0032: 2, T0067: 2, L0796: 2, L0662: 2,L0794: 2, L0806: 2, L0518: 2, L0792: 2, L3643: 1, S0342: 1, L0002: 1,H0657: 1, H0255: 1, H0305: 1, H0728: 1, H0733: 1, H0734: 1, S0007: 1,H0645: 1, H0640: 1, H0369: 1, H0261: 1, H0549: 1, H0550: 1, S0222: 1,H0586: 1, T0040: 1, L3655: 1, L0021: 1, L0022: 1, L0105: 1, T0071: 1,L0109: 1, H0194: 1, H0263: 1, H0566: 1, H0050: 1, L0471: 1, H0051: 1,S0051: 1, S0024: 1, H0355: 1, H0510: 1, H0271: 1, H0328: 1, H0039: 1,H0622: 1, L0483: 1, H0124: 1, S0036: 1, H0038: 1, H0616: 1, H0412: 1,H0059: 1, H0100: 1, H0646: 1, S0422: 1, S0002: 1, H0743: 1, H0529: 1,L0520: 1, L0640: 1, L0763: 1, L0773: 1, L0364: 1, L0649: 1, L0497: 1,L0526: 1, L0788: 1, L0789: 1, L0663: 1, L0665: 1, S0374: 1, H0780: 1,H0547: 1, S0126: 1, H0689: 1, H0648: 1, S0330: 1, S0378: 1, H0522: 1,S0037: 1, L0747: 1, L0750: 1, L0780: 1, L0752: 1, H0595: 1, S0434: 1,L0608: 1, L0594: 1, L0361: 1, L0603: 1, S0026: 1, S0192: 1, S0194: 1,H0423: 1, S0398: 1, S0460: 1, H0506: 1, H0008: 1 and H0352: 1. 45HHSDI53 862028 55 221-295 162 L0766: 10, L0752: 8, 1, 18 L0439: 6,L0747: 6, L0740: 5, L0756: 5, S0408: 4, L0779: 4, L0777: 4, L0731: 4,S0051: 3, H0169: 3, L0803: 3, L0774: 3, L0809: 3, L0754: 3, S0360: 2,H0574: 2, S0422: 2, L0763: 2, L0805: 2, L0666: 2, L0663: 2, L0751: 2,L0755: 2, L0759: 2, L0601: 2, H0624: 1, S0040: 1, H0713: 1, S0114: 1,S0298: 1, S0420: 1, S0444: 1, H0580: 1, H0730: 1, H0733: 1, L3388: 1,H0351: 1, H0600: 1, H0331: 1, H0013: 1, L0021: 1, H0575: 1, H0590: 1,T0110: 1, H0012: 1, H0615: 1, H0031: 1, H0553: 1, H0591: 1, S0440: 1,H0646: 1, S0002: 1, L0772: 1, L0645: 1, L0773: 1, L0662: 1, L0794: 1,L0381: 1, L0775: 1, L0776: 1, L0657: 1, L0659: 1, L0528: 1, L5622: 1,L0790: 1, H0547: 1, H0648: 1, H0539: 1, S0152: 1, H0696: 1, S0044: 1,S0406: 1, S0028: 1, L0758: 1, S0434: 1, S0436: 1, L0366: 1, S0011: 1,S0398: 1 and S0424: 1. 46 HISBA38 561711 56 169-279 163 L0766: 3, H0318:1 and 9 H0539: 1. 47 HJPBK28 638191 57 256-387 164 L0794: 6, L0439: 5,L0759: 5, H0556: 4, L0771: 4, L0770: 3, L0643: 3, H0144: 3, H0156: 2,H0188: 2, H0090: 2, H0641: 2, L0662: 2, L0766: 2, L0803: 2, L0776: 2,L0661: 2, L0659: 2, L0790: 2, H0522: 2, S0436: 2, H0295: 1, T0049: 1,H0583: 1, S0116: 1, H0663: 1, H0662: 1, S0356: 1, S0376: 1, S0132: 1,H0586: 1, H0587: 1, H0486: 1, H0575: 1, H0748: 1, H0744: 1, H0309: 1,H0231: 1, H0083: 1, H0271: 1, H0286: 1, H0622: 1, H0031: 1, L0455: 1,H0068: 1, H0063: 1, H0551: 1, H0264: 1, H0268: 1, T0041: 1, H0494: 1,H0633: 1, L0637: 1, L3905: 1, L0800: 1, L0775: 1, L0806: 1, L0383: 1,L0809: 1, L0666: 1, L0663: 1, L0664: 1, L2264: 1, L3827: 1, L3828: 1,H0519: 1, H0593: 1, H0435: 1, H0672: 1, H0436: 1, S0027: 1, L0740: 1,L0749: 1, L0731: 1, L0757: 1, L0758: 1, H0136: 1, H0423: 1 and S0446: 1.48 HKABU43 838573 58  755-1600 165 Ile-69 to Ala-74, L0794: 7, L0803: 3,Ala-122 to Ser-129, H0052: 2, S0250: 2, Thr-160 to Glu-170, H0032: 2,H0494: 2, Lys-197 to Arg-202. H0529: 2, L0666: 2, L0663: 2, L0747: 2,L0759: 2, H0657: 1, H0664: 1, H0662: 1, S0442: 1, H0741: 1, H0735: 1,H0733: 1, S0046: 1, H0640: 1, H0331: 1, H0559: 1, T0039: 1, H0013: 1,S0280: 1, H0318: 1, T0110: 1, H0024: 1, S0364: 1, H0591: 1, H0038: 1,H0040: 1, S0142: 1, L0640: 1, L0667: 1, L0764: 1, L0662: 1, L0804: 1,L0659: 1, L0517: 1, L0789: 1, L4559: 1, L0664: 1, S0126: 1, H0435: 1,H0539: 1, S0152: 1, H0521: 1, H0522: 1, S0027: 1, L0779: 1, L0758: 1,L0485: 1, L0601: 1, S0026: 1, H0667: 1, S0192: 1, H0542: 1 and H0506: 1.49 HLYGE16 651339 59 406-627 166 Arg-23 to Trp-42, H0255: 5, H0144: 3, 7Val-52 to Pro-61. H0429: 2, L0662: 2, L0794: 2, L0803: 2, L0809: 2,L0758: 2, L0599: 2, H0542: 2, S0040: 1, H0650: 1, S0442: 1, H0642: 1,L0157: 1, H0571: 1, H0673: 1, H0494: 1, L0771: 1, L0766: 1, L0776: 1,L0629: 1, L0657: 1, L0659: 1, L0792: 1, L0565: 1, H0345: 1, L0748: 1,L0754: 1, L0747: 1, L0749: 1, H0445: 1 and S0242: 1. 50 HLYGY91 65870360 211-339 167 H0692: 10, L0777: 10, L0805: 5, L0803: 3, L2497: 2,H0328: 2, L0662: 2, L0794: 2, L0809: 2, L3832: 2, L0748: 2, L0752: 2,L0599: 2, H0170: 1, H0402: 1, S0444: 1, S0360: 1, H0747: 1, L2486: 1,L3503: 1, H0427: 1, H0644: 1, H0038: 1, L0800: 1, L0648: 1, L0804: 1,H0670: 1, H0478: 1, L0731: 1, L0758: 1, H0445: 1, S0434: 1, L0591: 1 andL0362: 1. 51 HMCFH60 654853 61 211-357 168 L0659: 10, T0040: 9, 6 L0665:9, L0759: 9, L0519: 8, L0776: 7, S0436: 7, L0744: 6, L0747: 6, L0749: 6,L0758: 6, S0418: 5, H0052: 5, H0457: 5, H0150: 5, L0769: 5, L0766: 5,L0748: 5, H0265: 4, S0420: 4, S0356: 4, S0360: 4, S0046: 4, S0010: 4,H0545: 4, H0687: 4, H0494: 4, S0440: 4, L0662: 4, L0768: 4, L0774: 4,L0775: 4, L0751: 4, L0754: 4, L0779: 4, H0484: 3, H0734: 3, H0549: 3,H0599: 3, H0421: 3, H0620: 3, S0051: 3, L0764: 3, L0666: 3, H0435: 3,H0648: 3, H0539: 3, L0596: 3, H0543: 3, H0624: 2, H0171: 2, H0556: 2,H0295: 2, H0657: 2, H0656: 2, S0354: 2, S0358: 2, S0376: 2, S0408: 2,S0007: 2, S0132: 2, S0476: 2, S0222: 2, H0486: 2, T0039: 2, H0635: 2,H0156: 2, H0618: 2, T0048: 2, H0581: 2, H0544: 2, H0373: 2, H0428: 2,T0006: 2, H0604: 2, H0031: 2, H0551: 2, T0067: 2, H0264: 2, H0647: 2,S0344: 2, L0638: 2, L0372: 2, L0641: 2, L0806: 2, L0653: 2, L0527: 2,L0809: 2, L0565: 2, L0438: 2, H0519: 2, H0689: 2, H0658: 2, H0672: 2,S0330: 2, S0406: 2, H0436: 2, S0027: 2, L0750: 2, S0434: 2, L0605: 2,S0194: 2, H0506: 2, H0685: 1, H0713: 1, H0717: 1, H0740: 1, H0294: 1,S0212: 1, S0110: 1, S0282: 1, H0483: 1, S0442: 1, H0637: 1, H0733: 1,S0468: 1, H0747: 1, L3388: 1, H0351: 1, H0550: 1, H0587: 1, H0642: 1,H0559: 1, L0622: 1, L3653: 1, H0013: 1, H0250: 1, H0069: 1, S0280: 1,H0706: 1, S0346: 1, H0705: 1, H0318: 1, S0049: 1, H0748: 1, L0040: 1,H0597: 1, L0738: 1, H0009: 1, H0563: 1, H0123: 1, H0050: 1, L0471: 1,H0012: 1, H0024: 1, H0014: 1, S0388: 1, H0239: 1, H0594: 1, S6028: 1,H0271: 1, H0292: 1, H0213: 1, H0628: 1, H0673: 1, H0068: 1, S0036: 1,H0135: 1, H0090: 1, H0038: 1, H0634: 1, H0087: 1, H0488: 1, H0268: 1,H0412: 1, H0413: 1, S0038: 1, T0042: 1, H0560: 1, H0641: 1, S0210: 1,S0422: 1, S0002: 1, H0529: 1, L0770: 1, L0637: 1, L3905: 1, L5566: 1,L0761: 1, L0772: 1, L0646: 1, L0374: 1, L0771: 1, L4500: 1, L0651: 1,L0784: 1, L0807: 1, L0657: 1, L0658: 1, L0656: 1, L0782: 1, L0783: 1,L0530: 1, L0647: 1, L0788: 1, L0663: 1, L0664: 1, S0216: 1, H0693: 1,L3826: 1, H0520: 1, H0547: 1, S0126: 1, H0682: 1, H0659: 1, S0328: 1,S0380: 1, H0710: 1, H0521: 1, H0522: 1, H0627: 1, S0028: 1, L0741: 1,L0742: 1, L0439: 1, L0740: 1, L0756: 1, L0786: 1, L0780: 1, L0755: 1,L0581: 1, L0595: 1, L0601: 1, H0667: 1, S0192: 1, H0542: 1, L0718: 1 andS0424: 1. 52 HMIAK10 562774 62 195-290 169 S6028: 1 11 53 HMIBD93 63422763  983-1180 170 Pro-4 to Gly-13, L0439: 6, L0751: 5, Ala-42 to Ser-50.L0770: 3, L0769: 3, L0764: 3, H0617: 2, L0766: 2, L0752: 2, H0445: 2,S6024: 1, H0351: 1, S0222: 1, H0586: 1, S0010: 1, S6028: 1, L0768: 1,L0794: 1, L0438: 1, L0747: 1, L0753: 1 and L0758: 1. 54 HMWJF53 75815864 1015-1131 171 H0255: 7, H0318: 5, 2 H0620: 5, L0754: 5, L0766: 4,L0666: 4, S0358: 3, H0457: 3, H0135: 3, L0776: 3, L0809: 3, H0696: 3,S3012: 3, H0624: 2, H0295: 2, H0254: 2, H0662: 2, H0402: 2, H0305: 2,S0132: 2, L0717: 2, L0021: 2, H0617: 2, H0673: 2, L0769: 2, L0638: 2,L0796: 2, L0667: 2, L0662: 2, L0653: 2, L0783: 2, L0663: 2, S0126: 2,H0539: 2, H0521: 2, S0044: 2, S0027: 2, L0745: 2, L0747: 2, L0755: 2,L0587: 2, H0352: 2, H0170: 1, H0556: 1, H0657: 1, H0341: 1, S0212: 1,S0418: 1, S0360: 1, S0410: 1, H0339: 1, H0549: 1, S0222: 1, H0441: 1,H0331: 1, H0486: 1, H0427: 1, H0575: 1, T0048: 1, H0581: 1, H0052: 1,H0545: 1, H0150: 1, H0570: 1, H0569: 1, L0163: 1, H0083: 1, H0355: 1,H0252: 1, H0039: 1, T0023: 1, H0124: 1, H0090: 1, H0413: 1, H0560: 1,H0561: 1, S0372: 1, H0509: 1, H0652: 1, S0144: 1, S0422: 1, L0762: 1,L0770: 1, L0761: 1, L0373: 1, L0372: 1, L0645: 1, L0764: 1, L0771: 1,L0648: 1, L0768: 1, L0649: 1, L0804: 1, L0651: 1, L0806: 1, L0655: 1,L0659: 1, L0517: 1, L0528: 1, L0665: 1, H0698: 1, S0374: 1, L0438: 1,H0684: 1, H0658: 1, H0670: 1, S0328: 1, S0380: 1, H0134: 1, S0406: 1,L0743: 1, L0749: 1, L0750: 1, L0779: 1, L0759: 1, S0031: 1, H0445: 1,H0653: 1, S0194: 1, S0276: 1, H0542: 1 and S0460: 1. 55 HNECL22 79954165 472-576 172 L0748: 54, L0766: 20, 8 L0754: 18, H0179: 12, L0777: 12,L0750: 11, L0749: 10, S0116: 9, H0271: 9, L0761: 9, H0031: 8, L0794: 8,H0144: 8, L0744: 8, H0457: 7, S0356: 6, H0393: 6, H0013: 6, L0438: 6,L0743: 6, L0751: 6, L0745: 6, L0779: 6, L0758: 6, H0421: 5, L0805: 5,H0436: 5, H0305: 4, H0599: 4, H0050: 4, L0769: 4, L0646: 4, L0771: 4,L0803: 4, L0776: 4, L0809: 4, S0428: 4, L0603: 4, H0662: 3, S0358: 3,S0045: 3, H0747: 3, H0549: 3, H0497: 3, S0474: 3, H0674: 3, H0591: 3,H0625: 3, S0422: 3, L0800: 3, L0773: 3, L0792: 3, L0666: 3, S0052: 3,S0028: 3, L0759: 3, H0542: 3, H0556: 2, H0341: 2, H0402: 2, S0354: 2,S0376: 2, S0046: 2, H0559: 2, H0575: 2, H0590: 2, H0581: 2, H0024: 2,H0266: 2, H0553: 2, H0032: 2, H0673: 2, H0087: 2, H0264: 2, H0100: 2,H0494: 2, H0529: 2, L0774: 2, L0493: 2, L0659: 2, L0790: 2, L0664: 2,H0518: 2, S0044: 2, L0747: 2, L0780: 2, L0752: 2, L0605: 2, L0599: 2,L0593: 2, H0721: 2, H0171: 1, L3642: 1, L3644: 1, S0114: 1, H0583: 1,L0785: 1, H0419: 1, H0255: 1, H0589: 1, H0638: 1, H0125: 1, S0418: 1,S0444: 1, H0151: 1, S0476: 1, H0619: 1, S6026: 1, H0261: 1, H0431: 1,H0392: 1, H0069: 1, H0075: 1, H0635: 1, T0070: 1, H0156: 1, H0618: 1,S0010: 1, H0318: 1, H0310: 1, H0052: 1, H0251: 1, T0110: 1, H0046: 1,H0439: 1, H0086: 1, H0081: 1, H0057: 1, H0051: 1, H0375: 1, H0109: 1,H0416: 1, S0318: 1, S0314: 1, H0030: 1, H0111: 1, L0455: 1, H0040: 1,H0056: 1, H0623: 1, T0041: 1, T0042: 1, S0210: 1, S0002: 1, S0426: 1,L0598: 1, L0641: 1, L0764: 1, L0768: 1, L0807: 1, L0514: 1, L0658: 1,L0783: 1, L5623: 1, L0788: 1, L0663: 1, L0665: 1, S0374: 1, H0519: 1,S0122: 1, H0659: 1, H0658: 1, H0666: 1, H0672: 1, S0328: 1, H0521: 1,H0522: 1, S0406: 1, H0555: 1, H0478: 1, H0727: 1, L0742: 1, L0755: 1,L0731: 1, S0011: 1, S0026: 1, H0543: 1, H0423: 1, H0422: 1 and H0506: 1.56 HNFAC50 815676 66 676-774 173 Lys-7 to Glu-18. L0769: 5, L0756: 4,S0444: 3, L0774: 3, H0624: 2, S0408: 2, H0587: 2, L0764: 2, L0766: 2,H0170: 1, H0497: 1, H0333: 1, H0156: 1, L0022: 1, H0271: 1, S0344: 1,L0637: 1, L0772: 1, L0773: 1, L0662: 1, L0775: 1, L0809: 1, L0791: 1,L0663: 1, H0144: 1, S0374: 1, L3811: 1, H0593: 1, H0660: 1, H0648: 1,H0672: 1, H0696: 1, L0749: 1, L0750: 1, L0779: 1, L0752: 1, L0755: 1,L0599: 1, L0601: 1 and H0667: 1. 57 HNGEA34 815678 67 58-192 174 His-26to Ser-32. H0393: 1 and S0052: 1. 2 58 HNGIV64 561572 68 221-247 175S0052: 1 59 HNGKT41 836061 69 415-552 176 S0428: 1 5 60 HNGNO53 83606370 467-571 177 S0428: 2 and L0439: 1. 10, 8 61 HNHCT47 634691 71  73-192178 Asn-25 to Thr-33. S0053: 2 and S0046: 1. 11, 17, 5 62 HNHKI74 77785672 127-159 179 S0216: 1 63 HORBS82 638293 73  21-140 180 Gly-30 toSer-35. H0706: 2, L0809: 2, 20 S0360: 1, L0623: 1, H0122: 1, H0041: 1,H0095: 1, H0292: 1, H0424: 1, S0364: 1, L0794: 1, L0787: 1, L0663: 1,H0780: 1, H0435: 1, L0743: 1, L0747: 1 and L0731: 1. 64 HOUDE92 58086674  70-336 181 Pro-22 to His-31, H0052: 17, L0745: 11, 12p13 Ser-80 toGln-88. L0748: 10, H0547: 7, L0439: 7, L0755: 6, L0771: 5, L0774: 5,L0662: 4, L0746: 4, L0777: 4, S0474: 3, L0163: 3, H0059: 3, H0100: 3,L0775: 3, L0741: 3, H0261: 2, H0333: 2, H0194: 2, H0545: 2, H0012: 2,H0617: 2, H0135: 2, L0770: 2, L0665: 2, L0438: 2, H0520: 2, L0747: 2,L0752: 2, L0753: 2, S0040: 1, L0717: 1, H0437: 1, H0550: 1, S6016: 1,H0497: 1, H0574: 1, H0599: 1, H0575: 1, H0618: 1, H0253: 1, H0041: 1,H0620: 1, H0373: 1, H0188: 1, H0124: 1, H0068: 1, H0040: 1, H0561: 1,S0448: 1, S0210: 1, L0763: 1, L0644: 1, L0767: 1, L0768: 1, L0375: 1,L0651: 1, L0659: 1, L0540: 1, L5622: 1, H0144: 1, H0593: 1, S0126: 1,H0539: 1, S0152: 1, H0694: 1, S0390: 1, S0028: 1, L0749: 1, L0786: 1,L0780: 1, L0731: 1, L0757: 1, L0758: 1, S0436: 1, L0592: 1 and S0276: 1.65 HOUFS04 771564 75 520-738 182 L0745: 15, S0414: 6, H0351: 5, H0013:5, S0422: 5, L0803: 5, H0144: 4, H0413: 3, H0519: 3, L0754: 3, L0759: 3,S0242: 3, H0624: 2, H0580: 2, S0045: 2, L3655: 2, H0421: 2, H0375: 2,H0428: 2, H0553: 2, L0598: 2, L0775: 2, L5622: 2, L0666: 2, L0664: 2,L0665: 2, H0520: 2, H0547: 2, S0126: 2, H0672: 2, S0380: 2, H0521: 2,L0743: 2, L0744: 2, L0605: 2, H0171: 1, H0556: 1, H0685: 1, S0040: 1,S0114: 1, H0657: 1, S0212: 1, S0444: 1, H0733: 1, H0734: 1, H0749: 1,S0132: 1, H0619: 1, L3388: 1, H0411: 1, S0278: 1, H0549: 1, S0222: 1,L3816: 1, H0486: 1, S0280: 1, H0575: 1, L0105: 1, H0581: 1, H0052: 1,H0545: 1, H0594: 1, S6028: 1, H0687: 1, S0250: 1, H0031: 1, S0364: 1,L0455: 1, H0124: 1, H0591: 1, H0038: 1, S0450: 1, L0763: 1, L0638: 1,L0637: 1, L0662: 1, L0794: 1, L0649: 1, L0654: 1, L0382: 1, L0792: 1,L3811: 1, L3824: 1, L3828: 1, H0435: 1, H0518: 1, H0696: 1, H0436: 1,S0432: 1, S0390: 1, S0037: 1, S3014: 1, S0028: 1, S0124: 1, L0751: 1,L0756: 1, L0779: 1, L0777: 1, L0780: 1, L0752: 1, L0755: 1, S0031: 1,L0599: 1, S0196: 1, H0423: 1, H0422: 1 and H0721: 1. 66 HOUHI25 88827976 188-250 183 S0436: 7, H0551: 6, L2985: 5, H0599: 5, L0805: 5, L0756:5, L0758: 5, L0759: 5, L0754: 4, L0747: 4, L3655: 3, H0545: 3, S0003: 3,L0375: 3, H0144: 3, L0755: 3, S0442: 2, L3649: 2, S0045: 2, L3816: 2,H0013: 2, L0471: 2, H0373: 2, H0051: 2, H0560: 2, S0422: 2, L0768: 2,L0803: 2, L0650: 2, L0659: 2, L0438: 2, L0439: 2, L0740: 2, L0750: 2,L0779: 2, L0757: 2, S0242: 2, H0739: 1, H0624: 1, S0040: 1, S0342: 1,S0116: 1, S0212: 1, S0444: 1, H0747: 1, L3280: 1, H0357: 1, H0587: 1,L0021: 1, S0010: 1, L0105: 1, S0474: 1, H0544: 1, H0046: 1, S0051: 1,H0266: 1, H0622: 1, H0032: 1, H0388: 1, H0598: 1, H0413: 1, S0438: 1,H0641: 1, S0002: 1, L0770: 1, L3904: 1, L0662: 1, L0776: 1, L0809: 1,L0519: 1, L5622: 1, L5623: 1, L0663: 1, L0664: 1, L2260: 1, L2381: 1,L2673: 1, L3827: 1, H0520: 1, S0126: 1, L3832: 1, L0753: 1, S0434: 1,L0599: 1, S0011: 1, H0667: 1, L3560: 1 and L3585: 1. 67 HPCAL26 76282277 1021-1113 184 L0659: 11, S0126: 11, 11 L0731: 11, S0192: 11, L0666:9, L0777: 7, T0049: 5, S0358: 5, L0771: 5, L0757: 5, S0360: 4, S0440: 4,L0740: 4, L0758: 4, S0212: 3, S0356: 3, S0046: 3, H0369: 3, H0545: 3,L0662: 3, L0774: 3, L0809: 3, H0519: 3, L0752: 3, S0011: 3, H0295: 2,H0662: 2, S0468: 2, H0012: 2, H0024: 2, H0356: 2, H0616: 2, H0268: 2,H0412: 2, L0646: 2, L0803: 2, S0013: 2, L0754: 2, L0747: 2, L0759: 2,S0040: 1, S0418: 1, S0442: 1, S0376: 1, H0676: 1, L0717: 1, H0550: 1,S0222: 1, H0574: 1, L0021: 1, H0575: 1, H0036: 1, H0590: 1, H0618: 1,T0048: 1, H0309: 1, H0596: 1, T0110: 1, H0546: 1, H0046: 1, H0123: 1,H0014: 1, S0003: 1, S0022: 1, H0428: 1, H0622: 1, H0031: 1, H0673: 1,L0455: 1, H0316: 1, H0598: 1, H0163: 1, H0038: 1, H0433: 1, H0413: 1,T0069: 1, S0438: 1, H0633: 1, H0647: 1, S0210: 1, L0770: 1, L0769: 1,L0768: 1, L0794: 1, L0519: 1, L0789: 1, L0790: 1, L0664: 1, L0665: 1,H0144: 1, S0330: 1, S0136: 1, H0696: 1, S3014: 1, S0206: 1, L0751: 1,L0749: 1, L0756: 1, L0779: 1, S0031: 1, S0242: 1, S0194: 1 and S0276: 1.68 HPEBA84 753957 78 533-643 185 L0591: 2, L3643: 1, 1, 10 S0420: 1,L3388: 1, H0057: 1, H0166: 1, L0648: 1, L0518: 1, L0809: 1, L0519: 1,L0754: 1 and L0599: 1. 69 HSAVA08 580870 79  66-146 186 Thr-15 toGln-22. S0114: 2 16 70 HSHAX04 812178 80  42-215 187 L0731: 6, H0265: 4,1 L0483: 4, H0424: 4, H0253: 3, H0318: 3, L0769: 3, L0774: 3, L0776: 3,S0037: 3, L0742: 3, L0750: 3, L0755: 3, S0360: 2, H0581: 2, H0266: 2,H0213: 2, H0124: 2, H0413: 2, L0766: 2, L0659: 2, L0809: 2, S3014: 2,L0749: 2, L0757: 2, L0758: 2, L0759: 2, L0596: 2, L0595: 2, H0543: 2,H0422: 2, H0686: 1, H0685: 1, S0040: 1, H0295: 1, H0294: 1, S0430: 1,H0638: 1, S0418: 1, S0420: 1, S0354: 1, S0358: 1, S0376: 1, S0045: 1,H0586: 1, H0497: 1, H0333: 1, H0486: 1, H0069: 1, H0575: 1, H0618: 1,H0052: 1, H0085: 1, H0009: 1, S0051: 1, H0083: 1, H0284: 1, H0428: 1,H0417: 1, H0553: 1, H0628: 1, H0038: 1, H0280: 1, H0494: 1, H0625: 1,S0150: 1, S0426: 1, L0667: 1, L0646: 1, L0764: 1, L0773: 1, L0648: 1,L0767: 1, L0768: 1, L0375: 1, L0806: 1, L0519: 1, L0666: 1, L0663: 1,H0698: 1, H0689: 1, H0539: 1, H0518: 1, S0027: 1, S0028: 1, L0747: 1,L0752: 1, H0707: 1, L0597: 1, L0581: 1, L0361: 1, H0653: 1, H0542: 1 andH0506: 1. 71 HSKDR27 580874 81 473-556 188 Pro-18 to Gly-26. S0027: 95,S0192: 54, 19 S3014: 53, S0126: 42, S0040: 35, H0424: 23, S0028: 22,S0037: 19, S3012: 16, H0213: 13, T0006: 12, H0250: 11, S0032: 11, L0744:11, T0040: 10, H0124: 10, H0429: 10, L0740: 10, L0588: 10, L0754: 9,H0545: 8, H0280: 8, S0194: 8, S0196: 7, H0392: 6, T0039: 6, H0150: 6,H0039: 6, S0206: 6, L0743: 6, L0731: 6, S0342: 5, S0212: 5, S0045: 5,H0486: 5, H0575: 5, H0014: 5, H0090: 5, H0551: 5, H0100: 5, S0044: 5,S0011: 5, H0255: 4, H0318: 4, H0271: 4, S0022: 4, H0031: 4, H0181: 4,H0032: 4, H0038: 4, T0067: 4, S0124: 4, L0747: 4, L0749: 4, H0402: 3,H0309: 3, H0046: 3, S0250: 3, H0068: 3, H0087: 3, H0059: 3, S0142: 3,S0053: 3, H0419: 2, S0116: 2, S0408: 2, S0132: 2, S0278: 2, S0222: 2,H0331: 2, T0060: 2, H0069: 2, H0427: 2, H0599: 2, T0082: 2, H0253: 2,H0546: 2, H0086: 2, H0123: 2, H0024: 2, H0015: 2, H0510: 2, H0428: 2,T0023: 2, H0163: 2, H0063: 2, H0509: 2, L0772: 2, L0805: 2, S0052: 2,H0547: 2, H0518: 2, L0748: 2, L0751: 2, L0745: 2, L0750: 2, L0777: 2,L0755: 2, L0757: 2, H0445: 2, L0590: 2, L0599: 2, S0026: 2, S0242: 2,H0171: 1, H0265: 1, H0716: 1, H0294: 1, S0298: 1, H0662: 1, H0450: 1,S0360: 1, H0329: 1, S0046: 1, H0411: 1, S6022: 1, H0431: 1, H0357: 1,H0455: 1, H0586: 1, H0587: 1, L0021: 1, H0042: 1, T0048: 1, H0505: 1,H0052: 1, H0251: 1, H0235: 1, H0231: 1, H0544: 1, H0050: 1, H0051: 1,H0071: 1, H0083: 1, H0060: 1, H0266: 1, H0188: 1, H0292: 1, S0214: 1,H0328: 1, H0033: 1, H0417: 1, H0553: 1, H0628: 1, H0617: 1, H0606: 1,H0383: 1, H0212: 1, H0388: 1, H0135: 1, H0040: 1, H0487: 1, H0413: 1,T0069: 1, H0560: 1, H0538: 1, S0210: 1, L0763: 1, L0646: 1, L0641: 1,L0649: 1, L0803: 1, L0652: 1, L0629: 1, L0659: 1, L0787: 1, L0665: 1,H0435: 1, H0528: 1, H0521: 1, H0555: 1, L0779: 1, L0581: 1, S0276: 1 andH0008: 1. 72 HSQBF66 560726 82 229-429 189 S0026: 1 73 HSRFD18 840771 83 67-153 190 L0754: 10, S0422: 5, 1 S0022: 4, L0803: 4, L0748: 4, L0747:4, L0591: 4, H0486: 3, L0766: 3, L0805: 3, L0526: 3, L0665: 3, S0434: 3,S0212: 2, S0444: 2, S0360: 2, S0222: 2, L3816: 2, H0013: 2, H0596: 2,L0471: 2, H0166: 2, H0591: 2, H0509: 2, L0646: 2, L0662: 2, L0659: 2,L0666: 2, L0664: 2, S0374: 2, L0779: 2, L0777: 2, L0759: 2, S0436: 2,H0624: 1, H0170: 1, S0114: 1, S0001: 1, H0671: 1, H0663: 1, H0402: 1,H0305: 1, S0442: 1, S0408: 1, H0329: 1, H0742: 1, L3387: 1, H0581: 1,H0421: 1, H0194: 1, H0263: 1, H0597: 1, H0569: 1, H0355: 1, H0510: 1,H0179: 1, H0687: 1, H0615: 1, L0483: 1, H0553: 1, H0644: 1, H0673: 1,H0674: 1, H0100: 1, S0450: 1, H0714: 1, L0763: 1, L0770: 1, L0761: 1,L0649: 1, L0776: 1, L0518: 1, L0790: 1, L0791: 1, L0792: 1, L0663: 1,H0547: 1, H0670: 1, H0521: 1, H0696: 1, S0406: 1, H0555: 1, H0478: 1,L0780: 1, H0707: 1, S0276: 1 and H0543: 1. 74 HSWBE76 751308 84 380-559191 L0777: 4, L0751: 3, L0747: 3, L0648: 2, L0779: 2, L0753: 2, S0342:1, H0484: 1, H0661: 1, S0358: 1, L0009: 1, H0411: 1, S6014: 1, H0546: 1,H0123: 1, H0188: 1, S0366: 1, H0413: 1, S0344: 1, H0529: 1, L0769: 1,L0627: 1, L0774: 1, L0378: 1, L0776: 1, L0655: 1, L0663: 1, S0380: 1,H0478: 1, L0743: 1, L0750: 1 and S0196: 1. 75 HT3BF49 838620 85 306-320192 H0271: 2, L0791: 2, 6 L0439: 2, H0159: 1, H0561: 1, L0774: 1, S0052:1 and L0779: 1. 76 HTEEW69 764835 86  182-1153 193 Asp-63 to Thr-70,H0038: 8, H0616: 4, Asn-77 to Ser-86, L0779: 3, L0758: 3, Thr-101 toArg-108, L0753: 2, L0032: 1, Pro-117 to Asn-123, T0006: 1, H0040: 1,GLy-194 to Trp-203. L0768: 1 and H0547: 1. 77 HTEHU59 840385 87 170-274194 Ser-29 to Phe-34. S0422: 6, H0038: 4, 11 L0758: 4, L0754: 3, S0360:2, H0024: 2, L0598: 2, L0766: 2, L0748: 2, L0747: 2, L0756: 2, H0583: 1,H0341: 1, S0418: 1, L0005: 1, H0741: 1, H0437: 1, H0369: 1, H0581: 1,H0194: 1, S0050: 1, H0271: 1, H0428: 1, T0006: 1, H0068: 1, H0412: 1,H0056: 1, H0494: 1, S0426: 1, L0772: 1, L0646: 1, L0662: 1, L0803: 1,L0806: 1, L0776: 1, L0655: 1, L0789: 1, L0792: 1, H0144: 1, S0374: 1,H0670: 1, H0627: 1, S0026: 1 and S0192: 1. 78 HTEMQ17 840387 88 446-484195 L0748: 6, L0766: 4, H0038: 3, H0616: 3, H0056: 2, H0529: 2, H0519:2, H0624: 1, H0662: 1, S0418: 1, S0360: 1, H0749: 1, H0013: 1, H0581: 1,S0388: 1, H0266: 1, H0591: 1, H0087: 1, H0413: 1, H0561: 1, S0438: 1,S0422: 1, L0520: 1, L0769: 1, L0794: 1, L0775: 1, L0666: 1, L0663: 1,H0547: 1, S0152: 1, L0740: 1, L0777: 1, L0753: 1, L0758: 1, L0608: 1 andH0542: 1. 79 HTGBK95 834490 89 271-321 196 L0777: 5, S0444: 3, L0766: 3,L0803: 3, L0439: 3, S0360: 2, L0598: 2, L0666: 2, L0748: 2, T0049: 1,S0134: 1, S0116: 1, S0408: 1, L0717: 1, H0586: 1, H0486: 1, H0575: 1,H0510: 1, H0553: 1, H0560: 1, S0422: 1, L0763: 1, L0769: 1, L0521: 1,L0767: 1, L0768: 1, L0775: 1, L0663: 1, S0374: 1, L0438: 1, H0520: 1,H0682: 1, S0328: 1, S0406: 1, L0740: 1, S0192: 1 and H0543: 1. 80HTLEM16 779133 90 1220-1429 197 Arg-29 to Cys-43. L0439: 31, L0741: 24,H0056: 13, L0748: 12, H0052: 9, H0521: 9, L0776: 8, L0744: 8, L0438: 7,L0754: 7, S0474: 6, L0766: 6, L0742: 6, L0731: 6, L0750: 5, S0278: 4,L5566: 4, L0665: 4, H0522: 4, H0556: 3, H0716: 3, H0657: 3, S0358: 3,H0580: 3, H0599: 3, S0049: 3, H0009: 3, H0553: 3, H0641: 3, S0142: 3,L0764: 3, L0659: 3, L0666: 3, S0126: 3, L0751: 3, H0717: 2, H0656: 2,S0029: 2, S0420: 2, S0360: 2, S0007: 2, H0497: 2, H0486: 2, H0618: 2,H0253: 2, H0581: 2, H0046: 2, S0388: 2, T0010: 2, H0039: 2, H0424: 2,L0456: 2, S0036: 2, H0135: 2, H0551: 2, H0623: 2, H0494: 2, S0002: 2,L0770: 2, L0796: 2, L5575: 2, L5565: 2, L0761: 2, L0662: 2, L0650: 2,L0383: 2, L0663: 2, H0682: 2, L0758: 2, S0434: 2, L0596: 2, L0581: 2,S0242: 2, S0114: 1, H0583: 1, L0422: 1, S0116: 1, H0662: 1, H0305: 1,S0418: 1, L0005: 1, S0444: 1, S0046: 1, S0476: 1, H0645: 1, H0437: 1,H0261: 1, H0392: 1, H0600: 1, H0586: 1, H0574: 1, L0623: 1, H0013: 1,H0250: 1, H0427: 1, H0002: 1, H0575: 1, T0082: 1, H0590: 1, S0010: 1,H0390: 1, T0048: 1, H0318: 1, H0421: 1, H0251: 1, H0232: 1, H0546: 1,H0150: 1, H0041: 1, H0178: 1, H0569: 1, H0620: 1, H0051: 1, S0051: 1,H0510: 1, H0416: 1, H0188: 1, S0312: 1, S0314: 1, H0622: 1, H0213: 1,H0031: 1, L0143: 1, H0032: 1, L0455: 1, S0366: 1, H0038: 1, H0087: 1,H0264: 1, H0268: 1, H0022: 1, H0560: 1, H0625: 1, H0561: 1, S0438: 1,H0509: 1, H0633: 1, H0649: 1, S0144: 1, S0208: 1, H0529: 1, L0769: 1,L0637: 1, L0667: 1, L5568: 1, L0774: 1, L0375: 1, L0805: 1, L0653: 1,L0654: 1, L0661: 1, L0807: 1, L0527: 1, L0382: 1, L0809: 1, L0793: 1,S0006: 1, S0428: 1, S0053: 1, S0310: 1, L0352: 1, H0547: 1, H0684: 1,H0670: 1, H0660: 1, S0152: 1, H0696: 1, S0406: 1, H0555: 1, H0436: 1,S3014: 1, L0743: 1, L0745: 1, L0747: 1, L0749: 1, L0756: 1, L0753: 1,L0755: 1, H0445: 1, S0436: 1, L0485: 1, H0667: 1, H0216: 1, H0543: 1,H0422: 1 and H0008: 1. 81 HTNBK13 831967 91 534-599 198 L0779: 5, L0731:4, L0593: 4, H0046: 3, L0776: 3, L0666: 3, H0031: 2, L0772: 2, L0774: 2,L0805: 2, H0670: 2, L0439: 2, L0754: 2, L0777: 2, L0758: 2, L0590: 2,T0002: 1, L0717: 1, H0632: 1, L0622: 1, T0082: 1, H0581: 1, H0263: 1,T0115: 1, H0597: 1, L0471: 1, H0012: 1, H0620: 1, H0163: 1, T0067: 1,L0770: 1, L0637: 1, L0388: 1, L0657: 1, L0382: 1, L0664: 1, S0126: 1,H0660: 1, S0378: 1, H0521: 1, L0747: 1, L0750: 1, L0756: 1, L0752: 1,L0755: 1, L0759: 1, S0031: 1, L0599: 1 and L0603: 1. 82 HTODN35 57090192  67-111 199 H0264: 1 83 HTPDU17 840596 93  52-153 200 H0677: 19,L0759: 6, L0748: 5, H0040: 4, L0438: 3, L0754: 3, L0750: 3, L0777: 3,H0255: 2, H0617: 2, H0038: 2, H0529: 2, L0769: 2, L0761: 2, L0662: 2,L0666: 2, S0406: 2, L0749: 2, L0758: 2, L0595: 2, H0265: 1, H0556: 1,H0717: 1, S0134: 1, H0650: 1, H0657: 1, S0358: 1, S0444: 1, S0410: 1,S0045: 1, H0411: 1, H0392: 1, L0468: 1, H0587: 1, H0013: 1, H0069: 1,H0635: 1, H0575: 1, H0618: 1, H0581: 1, H0564: 1, H0569: 1, S6028: 1,H0266: 1, H0252: 1, H0615: 1, H0039: 1, H0031: 1, H0634: 1, H0100: 1,H0494: 1, H0334: 1, H0561: 1, S0150: 1, S0422: 1, L0667: 1, L0646: 1,L0800: 1, L0771: 1, L0661: 1, L0809: 1, L0790: 1, L0792: 1, L0663: 1,L0665: 1, S0374: 1, H0547: 1, H0519: 1, H0593: 1, H0672: 1, H0518: 1,H0521: 1, H0555: 1, H0436: 1, L0439: 1, L0779: 1, L0731: 1 and L0757: 1.84 HTTDN24 766485 94 1024-1728 201 Asp-194 to Leu-199, Ile-206 toPro-211, Glu-224 to Ser-229. 85 HTTEE41 840950 95 1171-1197 202 H0040:17, H0251: 14, 12 L0758: 10, L0748: 8, L0731: 8, H0494: 7, L0666: 7,H0144: 7, H0659: 7, L0747: 7, L0749: 7, L0757: 7, H0038: 6, H0529: 6,L0770: 6, L0662: 6, L0659: 6, H0013: 5, H0318: 5, H0616: 5, S0440: 5,L0775: 5, L0776: 5, H0519: 5, L0588: 5, L0592: 5, H0341: 4, S0360: 4,H0412: 4, L0663: 4, H0547: 4, L0754: 4, L0595: 4, H0542: 4, H0543: 4,H0423: 4, H0171: 3, H0657: 3, H0656: 3, S0045: 3, L3388: 3, H0581: 3,S0049: 3, T0110: 3, H0046: 3, H0090: 3, H0591: 3, H0551: 3, H0100: 3,H0022: 3, H0625: 3, H0633: 3, S0422: 3, L0375: 3, L0664: 3, H0682: 3,S0406: 3, L0740: 3, H0556: 2, H0241: 2, H0638: 2, S0418: 2, L0005: 2,S0442: 2, S0376: 2, H0722: 2, H0393: 2, L0717: 2, S0222: 2, H0574: 2,H0486: 2, T0040: 2, L0471: 2, S0051: 2, S0003: 2, H0252: 2, L0483: 2,T0006: 2, H0031: 2, H0032: 2, H0124: 2, H0634: 2, H0264: 2, T0042: 2,S0150: 2, H0646: 2, L0763: 2, L0637: 2, L0646: 2, L0374: 2, L0764: 2,L0768: 2, L0653: 2, L0665: 2, H0593: 2, H0435: 2, H0658: 2, H0539: 2,S0152: 2, L3832: 2, H0521: 2, S3014: 2, S0027: 2, S0028: 2, L0439: 2,L0750: 2, L0777: 2, S0436: 2, L0596: 2, L0608: 2, L0604: 2, L0594: 2,L0362: 2, S0026: 2, H0667: 2, S0452: 2, H0506: 2, L0411: 1, H0624: 1,H0170: 1, H0395: 1, H0265: 1, T0002: 1, H0220: 1, H0140: 1, H0159: 1,H0686: 1, H0583: 1, H0650: 1, S0212: 1, H0484: 1, H0664: 1, L0481: 1,S0356: 1, S0354: 1, S0358: 1, S0444: 1, S0408: 1, L3649: 1, H0580: 1,H0747: 1, H0437: 1, H0431: 1, T0104: 1, H0600: 1, H0592: 1, H0586: 1,L3817: 1, H0642: 1, H0632: 1, L2482: 1, T0114: 1, H0244: 1, H0250: 1,H0069: 1, H0156: 1, L0021: 1, H0599: 1, H0036: 1, S0346: 1, H0596: 1,H0544: 1, H0009: 1, N0006: 1, L0157: 1, H0569: 1, H0123: 1, H0242: 1,H0024: 1, H0083: 1, H0375: 1, H0328: 1, H0615: 1, H0428: 1, H0039: 1,H0622: 1, H0213: 1, H0553: 1, L0142: 1, H0628: 1, H0674: 1, H0388: 1,L0456: 1, H0708: 1, H0068: 1, H0598: 1, S0036: 1, H0135: 1, H0087: 1,H0380: 1, H0413: 1, H0056: 1, L0351: 1, T0041: 1, H0334: 1, H0561: 1,H0366: 1, S0448: 1, S0294: 1, H0130: 1, H0641: 1, H0649: 1, S0208: 1,S0002: 1, S0426: 1, L0520: 1, L0631: 1, L0769: 1, L0638: 1, L5565: 1,L0667: 1, L0772: 1, L0372: 1, L0641: 1, L0626: 1, L0794: 1, L0766: 1,L0381: 1, L0650: 1, L0651: 1, L0806: 1, L0655: 1, L0807: 1, L0657: 1,L0636: 1, L0518: 1, L0782: 1, L0382: 1, L0809: 1, L3391: 1, L2263: 1,L2259: 1, L2262: 1, L0565: 1, H0693: 1, L3827: 1, H0520: 1, S0126: 1,H0689: 1, H0670: 1, H0660: 1, H0666: 1, H0648: 1, L0602: 1, H0710: 1,H0518: 1, S0176: 1, H0134: 1, H0555: 1, H0436: 1, H0478: 1, H0631: 1,L0779: 1, L0752: 1, S0434: 1, L0605: 1, L0591: 1, L0599: 1, H0665: 1,S0196: 1, L2368: 1, H0008: 1 and H0352: 1. 86 HTXJD85 840391 96 211-306203 H0556: 2, L0638: 1, 3 L0748: 1 and L0439: 1. 87 HUVDJ48 564853 97196-213 204 H0393: 1, H0056: 1 and L0662: 1. 88 HWBBU75 780360 98783-938 205 Ser-17 to Gly-22, L0665: 4, H0457: 3, Leu-34 to Ala-42.H0264: 3, L0766: 3, H0521: 3, L0745: 3, H0556: 2, H0580: 2, S0352: 2,L0761: 2, L0806: 2, L0789: 2, L0748: 2, H0542: 2, H0255: 1, S0278: 1,H0581: 1, H0271: 1, H0719: 1, H0413: 1, H0494: 1, S0002: 1, S0426: 1,L0769: 1, L0774: 1, H0660: 1, L0750: 1, L0752: 1, L0753: 1 and S0424: 1.89 HWHPB78 740778 99 200-400 206 Gln-25 to Leu-30. H0437: 2, L0769: 2, 1S0028: 2, L0439: 2, S0436: 2, H0556: 1, H0125: 1, S0420: 1, H0619: 1,H0587: 1, H0635: 1, H0253: 1, H0318: 1, H0744: 1, H0052: 1, H0009: 1,H0172: 1, H0266: 1, H0135: 1, H0494: 1, L3905: 1, L0438: 1, L3828: 1,H0547: 1, H0539: 1, H0521: 1, S0037: 1, L0593: 1, H0506: 1 and H0008: 1.90 HWLBO67 834315 100  42-161 207 S0374: 1 2 91 HWLGP26 834770 1011091-1306 208 Pro-26 to Met-35. L0766: 5, L0803: 5, L0794: 3, S0410: 2,H0551: 2, H0435: 2, L0756: 2, L0731: 2, H0585: 1, S0212: 1, S0282: 1,L0534: 1, S0442: 1, S0354: 1, H0735: 1, H0486: 1, H0014: 1, H0354: 1,H0644: 1, H0135: 1, H0647: 1, L0369: 1, L0640: 1, L0763: 1, L0770: 1,L3905: 1, L0646: 1, L0771: 1, L0804: 1, L0784: 1, L0528: 1, L0789: 1,L0790: 1, L0792: 1, L3827: 1, H0658: 1, L0749: 1, L0758: 1 and S0436: 1.92 HILCA24 869856 102  191-1174 209 Gln-52 to Arg-57, L0748: 4, H0090:2, Glu-74 to Leu-84, L0659: 2, H0521: 2, Val-104 to Asp-110, L0777: 2,L0608: 2, Gly-157 to Gly-163, H0543: 2, T0002: 1, Asn-185 to Ser-195,S0114: 1, L3658: 1, Arg-245 to Asp-250, S0358: 1, S0408: 1, Pro-302 toPro-310, L3649: 1, T0109: 1, Thr-316 to Tyr-322. H0581: 1, H0622: 1,H0031: 1, H0644: 1, S0002: 1, L0657: 1, L0526: 1, L0789: 1, L0664: 1,S0380: 1, H0522: 1, L0749: 1 and L0779: 1. HILCA24 782450 110  189-1172217 Gln-52 to Arg-57, Glu-74 to Leu-84, Val-104 to Asp-110, Gly-157 toGly-163, Asn-185 to Ser-195, Arg-245 to Asp-250, Pro-302 to Pro-310,Thr-316 to Tyr-322. 93 HE2CA60 888705 103 1731-1754 210 H0305: 16,L0777: 11, 17 L0471: 10, S0422: 9, L0766: 9, H0624: 8, H0013: 7, H0170:6, L2551: 6, H0046: 6, L0665: 6, L0598: 5, L0662: 5, L0776: 5, H0547: 5,L0758: 5, L0589: 5, H0171: 4, L0659: 4, L0666: 4, L0663: 4, L0756: 4,L0731: 4, S0358: 3, L2744: 3, L3655: 3, H0581: 3, H0457: 3, S0406: 3,L0744: 3, L0439: 3, L0752: 3, S0436: 3, H0542: 3, H0543: 3, L3643: 2,H0650: 2, H0657: 2, S0116: 2, S0442: 2, S0354: 2, L0717: 2, S0414: 2,H0486: 2, T0040: 2, H0318: 2, H0421: 2, H0428: 2, H0553: 2, H0090: 2,H0040: 2, H0063: 2, H0641: 2, L0769: 2, L0761: 2, L0764: 2, L0650: 2,L0774: 2, L0805: 2, L0657: 2, H0144: 2, L3811: 2, L3832: 2, H0521: 2,S0404: 2, L0741: 2, L0740: 2, L0747: 2, L0759: 2, S0434: 2, L0362: 2,H0685: 1, S0218: 1, L0785: 1, H0341: 1, H0255: 1, H0663: 1, H0662: 1,H0402: 1, S0376: 1, S0360: 1, S0410: 1, L3645: 1, L3646: 1, H0637: 1,H0741: 1, H0722: 1, H0735: 1, S0046: 1, H0749: 1, S0300: 1, L2758: 1,L2767: 1, L3388: 1, S0222: 1, H0592: 1, H0586: 1, H0587: 1, H0559: 1,L3653: 1, H0427: 1, L0021: 1, H0037: 1, H0746: 1, H0263: 1, H0544: 1,H0050: 1, H0057: 1, L0163: 1, H0051: 1, S0022: 1, H0328: 1, T0023: 1,H0673: 1, H0674: 1, H0591: 1, H0038: 1, H0551: 1, T0067: 1, H0100: 1,L0065: 1, S0440: 1, H0649: 1, H0529: 1, L0369: 1, L0763: 1, L0667: 1,L0630: 1, L0372: 1, L0521: 1, L0533: 1, L0775: 1, L0651: 1, L0806: 1,L0655: 1, L0661: 1, L0807: 1, L0656: 1, L0809: 1, L3872: 1, L0790: 1,L0664: 1, L2655: 1, L3663: 1, S0374: 1, L2706: 1, H0520: 1, H0435: 1,H0660: 1, H0672: 1, S0328: 1, H0539: 1, S0380: 1, H0753: 1, S0004: 1,H0696: 1, L0748: 1, L0754: 1, L0750: 1, L0753: 1, S0031: 1, H0444: 1,L0588: 1, L0605: 1, L0485: 1, H0216: 1, S0242: 1, H0423: 1, S0458: 1 andH0721: 1. HE2CA60 770301 111 360-383 218 94 HPWTF23 844775 104 283-675211 Val-80 to Leu-92, S0474: 47, H0710: 28, Ser-98 to Lys-104, L0747:18, L0659: 17, Pro-111 to Pro-122. H0656: 13, H0436: 10, H0271: 9,L0751: 9, H0581: 8, H0179: 8, H0063: 8, L0731: 8, L0599: 8, H0740: 7,L0756: 7, H0650: 6, L0662: 6, H0555: 6, S0354: 5, H0728: 5, H0733: 5,H0734: 5, H0036: 5, H0590: 5, H0052: 5, L0770: 5, S0428: 5, S0374: 5,L0439: 5, L3643: 4, H0717: 4, H0747: 4, H0393: 4, S0222: 4, H0156: 4,H0309: 4, S0312: 4, S0314: 4, H0090: 4, H0591: 4, L0637: 4, L0761: 4,L0776: 4, L0783: 4, L0438: 4, L0757: 4, H0543: 4, H0716: 3, H0662: 3,H0402: 3, H0619: 3, H0392: 3, H0575: 3, H0004: 3, H0673: 3, S0364: 3,H0135: 3, H0059: 3, H0494: 3, L0667: 3, L0764: 3, L0803: 3, L0775: 3,L0666: 3, L3811: 3, H0670: 3, L0744: 3, L0750: 3, L0779: 3, L0758: 3,L0759: 3, S0436: 3, H0556: 2, L3644: 2, H0713: 2, S6024: 2, H0341: 2,S0282: 2, S0442: 2, S0376: 2, S0360: 2, H0580: 2, H0329: 2, H0749: 2,H0645: 2, H0369: 2, H0486: 2, S0280: 2, H0042: 2, H0421: 2, H0545: 2,H0457: 2, H0620: 2, H0014: 2, S0051: 2, T0010: 2, S0340: 2, H0031: 2,H0644: 2, H0383: 2, H0674: 2, H0551: 2, H0264: 2, H0488: 2, T0004: 2,S0438: 2, H0130: 2, H0647: 2, S0422: 2, L0766: 2, L0655: 2, L0517: 2,L0518: 2, L0809: 2, L0647: 2, H0547: 2, H0660: 2, S0044: 2, S0027: 2,S0028: 2, L0748: 2, L0754: 2, L0745: 2, H0445: 2, S0434: 2, L0596: 2,L0588: 2, H0506: 2, H0170: 1, S0134: 1, L0414: 1, L0785: 1, S0212: 1,H0255: 1, S0358: 1, S0444: 1, L3649: 1, H0637: 1, H0729: 1, H0730: 1,H0741: 1, H0208: 1, S6022: 1, H0550: 1, H0609: 1, H0586: 1, H0333: 1,T0060: 1, H0427: 1, L0021: 1, L0022: 1, S0010: 1, S0346: 1, L0105: 1,H0318: 1, H0597: 1, H0150: 1, L0471: 1, H0011: 1, S0362: 1, H0373: 1,S0388: 1, H0354: 1, H0099: 1, H0594: 1, H0266: 1, H0416: 1, H0188: 1,S0318: 1, S0334: 1, H0687: 1, S0338: 1, H0252: 1, H0213: 1, H0553: 1,H0111: 1, H0617: 1, H0169: 1, H0163: 1, T0067: 1, L0435: 1, L0564: 1,S0440: 1, H0509: 1, S0150: 1, H0646: 1, H0652: 1, L3815: 1, L0371: 1,L0769: 1, L0771: 1, L0649: 1, L0774: 1, L0375: 1, L0651: 1, L0378: 1,L0805: 1, L0606: 1, L0657: 1, L0384: 1, L0529: 1, L5623: 1, L0793: 1,L0664: 1, S0216: 1, H0144: 1, H0723: 1, H0593: 1, H0689: 1, H0659: 1,H0672: 1, S0328: 1, H0539: 1, H0518: 1, H0521: 1, H0696: 1, H0134: 1,L0612: 1, H0732: 1, S3012: 1, S0390: 1, S0037: 1, S3014: 1, S0032: 1,L0743: 1, L0749: 1, L0752: 1, L0755: 1, H0707: 1, L0591: 1, L0592: 1,H0653: 1, H0136: 1, S0412: 1 and H0721: 1. HPWTF23 843700 112 283-675219 Val-80 to Leu-92, Ser-98 to Lys-104, Pro-111 to Pro-122. 95 HGCAC19851527 105 317-346 212 L0794: 15, L0803: 12, L0766: 7, H0013: 6, H0090:6, L0663: 6, L0777: 6, L0731: 6, L0759: 6, H0457: 5, H0328: 5, L0493: 5,L0666: 5, L0754: 5, L0749: 5, H0543: 5, H0656: 4, S0358: 4, H0615: 4,L0665: 4, H0521: 4, L0779: 4, L0588: 4, H0305: 3, S0360: 3, H0036: 3,H0052: 3, T0042: 3, L0761: 3, L0805: 3, L0809: 3, H0144: 3, H0670: 3,H0696: 3, L0591: 3, S0134: 2, H0657: 2, L3659: 2, S0418: 2, S0442: 2,S0007: 2, S0045: 2, L0717: 2, H0600: 2, H0486: 2, H0156: 2, H0575: 2,H0590: 2, H0024: 2, S0022: 2, L0483: 2, H0135: 2, H0038: 2, H0560: 2,S0422: 2, L0457: 2, H0529: 2, L0625: 2, L0648: 2, L0776: 2, L0655: 2,L0527: 2, S0374: 2, H0520: 2, H0519: 2, H0659: 2, H0436: 2, L0748: 2,L0745: 2, L0581: 2, L0361: 2, H0542: 2, H0423: 2, S0424: 2, H0624: 1,H0171: 1, H0556: 1, T0002: 1, H0686: 1, S0342: 1, H0717: 1, T0049: 1,S0430: 1, H0650: 1, H0341: 1, H0663: 1, H0589: 1, S0356: 1, S0376: 1,S0408: 1, S0410: 1, L2336: 1, H0329: 1, S0046: 1, H0645: 1, H0369: 1,S6014: 1, H0370: 1, H0455: 1, H0438: 1, H0602: 1, H0586: 1, H0587: 1,H0574: 1, H0559: 1, S0280: 1, L0021: 1, H0318: 1, S0474: 1, H0263: 1,T0115: 1, H0545: 1, L0157: 1, H0123: 1, L0471: 1, H0015: 1, S0388: 1,S0051: 1, H0375: 1, H0271: 1, H0188: 1, S0312: 1, S0003: 1, H0688: 1,H0039: 1, H0622: 1, H0031: 1, H0644: 1, L0055: 1, H0169: 1, L0456: 1,H0163: 1, H0634: 1, H0551: 1, H0379: 1, H0488: 1, H0279: 1, L0475: 1,S0352: 1, H0652: 1, S0208: 1, L0640: 1, L0763: 1, L0500: 1, L0769: 1,L0646: 1, L0662: 1, L0649: 1, L0498: 1, L0804: 1, L0650: 1, L0784: 1,L0806: 1, L0653: 1, L0606: 1, L0515: 1, L0659: 1, L0526: 1, L0519: 1,L0788: 1, L0790: 1, L0791: 1, L0664: 1, S0053: 1, S0296: 1, H0547: 1,S0126: 1, H0682: 1, H0684: 1, H0658: 1, H0660: 1, H0672: 1, S0380: 1,H0518: 1, H0525: 1, S0044: 1, S0404: 1, S0406: 1, H0479: 1, S0432: 1,S3014: 1, L0744: 1, L0750: 1, L0780: 1, L0753: 1, L0604: 1, S0106: 1,S0242: 1, S0196: 1, S0452: 1 and H0506: 1. HGCAC19 842540 113 315-344220 HGCAC19 801999 114 317-346 221 96 HEQBJ01 876546 106 2603-2662 213S0360: 3, H0619: 3, 16 H0673: 2, L0438: 2, H0685: 1, S0444: 1, H0544: 1,H0266: 1, H0163: 1, L0770: 1, L0646: 1, L0768: 1, L0766: 1, L0803: 1,L0776: 1, S0152: 1, S0027: 1, L0439: 1, L0747: 1, L0777: 1, L0752: 1 andL0758: 1. HEQBJ01 861786 115 2603-2662 222 HEQBJ01 834633 116 505-564223 97 HBJHT01 587262 107 200-265 214 L0667: 2, S0114: 1, H0351: 1,H0318: 1, H0615: 1 and L0764: 1. HBJHT01 580026 117 193-336 224 98HAGDW20 637489 108 238-291 215 S0010: 1 and H0616: 1. 99 HTLIF11 843506109  933-1049 216 Pro-4 to Gly-9. H0253: 7, H0618: 4, H0620: 3, L0794:3, L0769: 2, L0768: 2, L0439: 2, H0327: 1, H0051: 1, S0250: 1, S0036: 1,L0639: 1, L0761: 1, L0635: 1, L0791: 1, L0664: 1, L0438: 1, H0539: 1,L0741: 1, L0747: 1, L0750: 1, L0756: 1 and L0753: 1.

TABLE 1B.2 SEQ Gene cDNA ID No: Clone ID Contig ID: NO: X TissueDistribution Library Code: Count (see Table 4 for Library Codes) 1HACBT91 789939 11 AR283: 41, AR219: 39, AR277: 38, AR218: 33, AR055: 29,AR316: 28, AR039: 25, AR104: 22, AR299: 22, AR096: 20, AR089: 20, AR185:19, AR240: 19, AR282: 18, AR060: 17, AR300: 16, AR313: 16, L0665: 5,L0743: 3, H0341: 2, L0761: 2, L0756: 2, S0356: 1, H0734: 1, S0280: 1,T0048: 1, H0271: 1, S0440: 1, H0641: 1, H0646: 1, L0770: 1, L0637: 1,L0800: 1, L0773: 1, L0648: 1, L0662: 1, L0768: 1, L0766: 1, L0649: 1,L0375: 1, L0784: 1, L0806: 1, L0655: 1, L0809: 1, H0672: 1, S0406: 1,L0747: 1, L0749: 1 and L0750: 1. 2 HADDE71 839187 12 AR283: 48, AR277:39, AR313: 33, AR219: 30, AR316: 27, AR282: 27, AR089: 27, AR299: 26,AR218: 26, AR240: 25, AR185: 22, AR104: 22, AR055: 22, AR096: 22, AR300:20, AR039: 20, AR060: 15, L0769: 11, L0747: 9, L0809: 6, S0408: 4,L0770: 4, L0439: 4, L0752: 4, L0759: 4, L0766: 3, L0803: 3, L0666: 3,L0751: 3, L0780: 3, S0007: 2, H0619: 2, H0351: 2, H0333: 2, H0427: 2,H0052: 2, L0761: 2, L0662: 2, L0794: 2, L0774: 2, L0806: 2, L0659: 2,H0547: 2, H0521: 2, L0741: 2, L0745: 2, L0750: 2, L0779: 2, L0777: 2,H0543: 2, H0739: 1, H0171: 1, L3019: 1, H0483: 1, H0254: 1, H0125: 1,H0675: 1, H0580: 1, H0722: 1, H0733: 1, S0140: 1, H0261: 1, H0592: 1,H0586: 1, H0587: 1, H0257: 1, H0486: 1, L0022: 1, H0042: 1, H0581: 1,H0150: 1, H0086: 1, H0123: 1, T0010: 1, H0266: 1, H0673: 1, S0364: 1,H0087: 1, H0264: 1, H0494: 1, H0560: 1, H0538: 1, L0762: 1, L0772: 1,L0646: 1, L0765: 1, L0649: 1, L0805: 1, L0776: 1, L0657: 1, L0783: 1,L5622: 1, L0791: 1, L2654: 1, S0126: 1, H0435: 1, S0330: 1, H0522: 1,L0743: 1, L0744: 1, L0749: 1, L0786: 1, L0753: 1, L0755: 1, L0731: 1,L0758: 1, S0436: 1, S0011: 1 and S0192: 1. 3 HADDJ13 827273 13 H0427: 14 HADMA77 783049 14 AR104: 16, AR039: 10, AR277: 9, AR089: 9, AR240: 9,AR055: 9, AR300: 8, AR218: 7, AR299: 7, AR283: 7, AR060: 7, AR282: 7,AR316: 6, AR219: 6, AR096: 5, AR185: 5, AR313: 4, L0439: 15, S0222: 4,L0157: 4, L0769: 4, L0438: 3, L0745: 3, L0731: 3, L0758: 3, L0599: 3,H0443: 2, H0441: 2, S0010: 2, L0662: 2, L0744: 2, L0748: 2, L0750: 2,L0756: 2, L0777: 2, H0583: 1, L0005: 1, S0354: 1, H0675: 1, S0408: 1,H0619: 1, H0369: 1, H0574: 1, H0486: 1, H0390: 1, S0346: 1, H0309: 1,H0597: 1, T0003: 1, H0024: 1, S6028: 1, H0028: 1, T0006: 1, H0628: 1,H0135: 1, H0551: 1, S0438: 1, L0520: 1, L0768: 1, L0776: 1, L0559: 1,L0659: 1, L0384: 1, L0809: 1, H0144: 1, H0547: 1, L0746: 1, L0747: 1,L0757: 1 and S0434: 1. 5 HADMB15 847116 15 AR104: 19, AR218: 19, AR219:16, AR089: 11, AR313: 8, AR055: 8, AR060: 7, AR299: 6, AR282: 5, AR300:5, AR039: 5, AR240: 5, AR316: 5, AR185: 5, AR277: 4, AR283: 4, AR096: 3,L0595: 2, L0442: 1, L0005: 1, L3653: 1, H0390: 1, H0081: 1, H0024: 1,L0770: 1, L5566: 1, L0651: 1, L0565: 1, L0439: 1, L0747: 1, L0752: 1,H0445: 1, L0592: 1 and L0599: 1. 6 HAGBQ12 722205 16 AR060: 7, AR055: 6,AR104: 5, AR185: 5, AR089: 4, AR299: 4, AR277: 4, AR300: 4, AR283: 4,AR313: 3, AR316: 3, AR240: 3, AR039: 3, AR096: 3, AR282: 2, AR218: 2,AR219: 1, L0754: 4, L0805: 2, L0777: 2, L0755: 2, S0010: 1, H0049: 1,L0163: 1, L0771: 1, L0775: 1 and L0776: 1. 7 HAGCC87 638587 17 AR313:17, AR039: 14, AR277: 10, AR104: 10, AR089: 9, AR300: 9, AR096: 9,AR299: 8, AR185: 7, AR055: 6, AR060: 6, AR218: 6, AR240: 6, AR316: 6,AR282: 4, AR283: 4, AR219: 3, L0439: 4, L0519: 3, S0010: 2, T0010: 1,L0809: 1, H0682: 1, S0404: 1, S0406: 1, H0436: 1 and L0756: 1. 8 HAGHN57773286 18 AR313: 12, AR316: 11, AR218: 11, AR185: 11, AR039: 10, AR219:10, AR299: 10, AR060: 9, AR055: 8, AR277: 8, AR282: 8, AR096: 7, AR089:7, AR300: 7, AR240: 6, AR104: 6, AR283: 4, H0521: 5, L0777: 5, S0376: 4,H0733: 3, H0156: 3, H0519: 3, H0436: 3, L0731: 3, H0656: 2, H0580: 2,H0747: 2, L3816: 2, H0036: 2, L0471: 2, H0090: 2, H0040: 2, H0551: 2,H0494: 2, S0438: 2, S0440: 2, H0529: 2, L0809: 2, H0144: 2, S0374: 2,H0593: 2, H0170: 1, L3643: 1, H0583: 1, H0650: 1, S0418: 1, S0358: 1,S0444: 1, L3645: 1, H0741: 1, H0734: 1, S0045: 1, S0476: 1, H0619: 1,H0586: 1, H0643: 1, H0632: 1, H0486: 1, S0280: 1, H0590: 1, S0010: 1,S0346: 1, H0581: 1, H0231: 1, H0046: 1, H0123: 1, S6028: 1, H0687: 1,S0003: 1, S0214: 1, H0252: 1, H0615: 1, H0212: 1, L0455: 1, S0366: 1,H0163: 1, H0038: 1, H0634: 1, T0067: 1, L0475: 1, H0560: 1, H0561: 1,S0464: 1, H0646: 1, S0426: 1, H0026: 1, L0790: 1, H0520: 1, H0435: 1,S0328: 1, H0539: 1, H0704: 1, S0027: 1, L0439: 1, L0750: 1, L0756: 1,L0757: 1, S0434: 1, L0581: 1, L0595: 1, H0543: 1 and H0423: 1. 9 HAGHR18655435 19 AR052: 6, AR055: 6, AR247: 6, AR061: 6, AR053: 6, AR060: 5,AR182: 5, AR263: 5, AR310: 5, AR312: 4, AR251: 4, AR033: 4, AR244: 4,AR293: 4, AR282: 4, AR269: 3, AR185: 3, AR270: 3, AR298: 3, AR089: 3,AR253: 3, AR296: 3, AR104: 3, AR232: 3, AR299: 3, AR285: 3, AR198: 3,AR286: 3, AR184: 3, AR237: 3, AR277: 3, AR295: 3, AR300: 3, AR213: 3,AR284: 2, AR283: 2, AR267: 2, AR266: 2, AR290: 2, AR268: 2, AR289: 2,AR313: 2, AR316: 2, AR294: 2, AR186: 2, AR096: 2, AR183: 2, AR233: 2,AR240: 2, AR229: 2, AR218: 2, AR177: 2, AR259: 2, AR246: 2, AR248: 2,AR175: 2, AR292: 2, AR309: 2, AR265: 2, AR226: 1, AR039: 1, AR234: 1,AR179: 1, AR258: 1, AR219: 1, AR231: 1, AR238: 1, L0717: 1 and S0346: 1.10 HAQAI92 688037 20 AR218: 541, AR219: 408, AR240: 96, AR185: 95,AR055: 69, AR039: 68, AR096: 62, AR316: 50, AR089: 42, AR299: 41, AR300:37, AR060: 31, AR104: 29, AR313: 26, AR283: 23, AR282: 19, AR277: 13,H0617: 5, H0606: 2, L0744: 2, L0779: 2, H0295: 1, H0100: 1, S0440: 1,H0026: 1, L0762: 1, L0504: 1, L0769: 1, L0764: 1, L0662: 1, L0649: 1,L0804: 1, L0787: 1, L0666: 1, L0663: 1, H0520: 1, L0748: 1, L0751: 1,L0752: 1 and S0436: 1. 11 HAQBG57 837545 21 H0295: 6, H0255: 2, H0392:1, H0587: 1, H0333: 1, H0545: 1, H0328: 1, H0616: 1, S0142: 1, H0529: 1,L0659: 1, L0783: 1, L0528: 1, H0547: 1, S0136: 1, S0390: 1, L0754: 1,L0747: 1 and L0752: 1. 12 HAQCE11 633730 22 AR185: 11, AR060: 7, AR055:6, AR218: 6, AR300: 5, AR104: 4, AR299: 4, AR240: 4, AR277: 3, AR089: 3,AR283: 3, AR096: 3, AR316: 3, AR313: 2, AR039: 2, AR282: 2, AR219: 2,H0295: 5 and L0438: 1. 13 HBAGD86 838799 23 AR219: 7, AR218: 4, AR313:4, AR104: 4, AR039: 3, AR299: 3, AR282: 2, AR300: 2, AR096: 2, AR316: 2,AR277: 1, AR240: 1, AR089: 1, L0809: 4, L0766: 3, L0439: 3, H0624: 2,H0411: 2, L0794: 2, L0749: 2, L0756: 2, L0005: 1, L3649: 1, S0476: 1,H0599: 1, L0471: 1, S0051: 1, T0010: 1, H0266: 1, S0150: 1, S0422: 1,L0637: 1, L0765: 1, L0803: 1, L0783: 1, L5622: 1, H0144: 1, H0672: 1,S0392: 1, L0748: 1, L0754: 1, L0779: 1, L0777: 1, L0731: 1 and L0759: 1.14 HBGBC29 691473 24 AR299: 5, AR218: 5, AR313: 4, AR300: 4, AR055: 4,AR060: 4, AR277: 3, AR316: 3, AR089: 3, AR185: 3, AR096: 3, AR039: 3,AR219: 3, AR104: 3, AR240: 3, AR282: 2, AR283: 2, L0731: 20, L0747: 7,L0794: 6, L0764: 4, L0803: 4, L0759: 4, L0662: 3, L0774: 3, L0749: 3,L0756: 3, S0436: 3, S0360: 2, H0156: 2, H0046: 2, H0181: 2, L0766: 2,L0659: 2, L0809: 2, L0438: 2, S0126: 2, H0658: 2, L0439: 2, L0754: 2,L0777: 2, L0755: 2, L0757: 2, L0604: 2, S0242: 2, S0442: 1, S0376: 1,S0408: 1, L0717: 1, H0270: 1, H0263: 1, H0597: 1, H0123: 1, H0617: 1,H0551: 1, S0440: 1, H0647: 1, L0770: 1, L0769: 1, L0638: 1, L0775: 1,L0651: 1, L0527: 1, L0526: 1, L0789: 1, L0666: 1, L0665: 1, H0547: 1,H0435: 1, H0648: 1, S0330: 1, S0406: 1, H0627: 1, L0750: 1, L0780: 1,L0752: 1, L0758: 1, L0366: 1 and H0293: 1. 15 HBJAB02 837309 25 AR282:3, AR277: 1, AR039: 1, AR316: 1, S0434: 5, L0794: 3, H0255: 2, H0318: 2,H0251: 2, L0764: 2, L0628: 2, L0809: 2, L0665: 2, H0658: 2, S0406: 2,L0361: 2, H0265: 1, H0685: 1, H0657: 1, H0483: 1, S0420: 1, S0442: 1,S0358: 1, H0729: 1, H0734: 1, S0132: 1, S0222: 1, T0082: 1, H0150: 1,H0083: 1, S0214: 1, H0252: 1, H0628: 1, T0041: 1, S0344: 1, H0529: 1,L0520: 1, L0535: 1, L0662: 1, L0387: 1, L0375: 1, L0518: 1, L0666: 1,L0663: 1, H0726: 1, H0519: 1, H0670: 1, H0660: 1, L0602: 1, L0747: 1,L0777: 1, L0601: 1, S0276: 1, H0423: 1 and H0422: 1. 16 HBMUH74 86616026 AR218: 12, AR055: 8, AR060: 7, AR104: 7, AR219: 5, AR240: 5, AR299:5, AR096: 4, AR316: 4, AR300: 4, AR039: 4, AR089: 3, AR283: 3, AR185: 3,AR313: 3, AR282: 2, AR277: 2, L0754: 3, L0777: 3, L0439: 2, S0116: 1,H0341: 1, H0661: 1, H0038: 1, H0412: 1, L0761: 1, L0667: 1, L0764: 1,L0788: 1, H0435: 1, L0749: 1, L0779: 1 and L0758: 1. 17 HBNAX40 83480127 AR218: 8, AR313: 8, AR055: 6, AR060: 6, AR089: 5, AR104: 5, AR185: 4,AR300: 4, AR299: 4, AR316: 4, AR096: 3, AR277: 3, AR240: 3, AR039: 3,AR283: 3, AR282: 3, AR219: 2, L0439: 11, H0171: 5, L0754: 5, L0748: 4,H0052: 3, L0662: 3, L0756: 3, L0755: 3, H0422: 3, S0360: 2, L0738: 2,H0032: 2, L0803: 2, L0655: 2, L0789: 2, L0605: 2, H0423: 2, H0638: 1,T0114: 1, H0156: 1, L0021: 1, S0010: 1, H0581: 1, H0046: 1, L0471: 1,H0014: 1, H0356: 1, H0188: 1, H0553: 1, H0591: 1, S0386: 1, T0042: 1,H0625: 1, H0641: 1, S0142: 1, L0598: 1, L0369: 1, L0640: 1, L0375: 1,L0654: 1, L0659: 1, L0783: 1, L0663: 1, L0665: 1, H0144: 1, L0352: 1,H0547: 1, H0648: 1, H0672: 1, H0555: 1, H0436: 1, L0749: 1, L0779: 1,L0731: 1, L0758: 1, L0759: 1, H0445: 1, L0366: 1 and H0668: 1. 18HBXCX15 637542 28 S0038: 3, H0438: 1, L0363: 1 and S0053: 1. 19 HCDBO32831942 29 AR219: 9, AR185: 8, AR055: 8, AR218: 8, AR089: 6, AR313: 6,AR283: 6, AR282: 6, AR104: 5, AR060: 5, AR316: 5, AR300: 5, AR299: 4,AR096: 4, AR240: 4, AR277: 4, AR039: 3, L0803: 7, L0766: 4, L0777: 4,L0666: 3, H0521: 3, T0115: 2, H0687: 2, L0809: 2, H0659: 2, L0754: 2,L0779: 2, L0759: 2, L3643: 1, H0341: 1, H0747: 1, H0749: 1, L3387: 1,H0351: 1, S0222: 1, H0441: 1, L3816: 1, H0013: 1, S0280: 1, H0251: 1,H0544: 1, H0123: 1, H0354: 1, H0266: 1, H0622: 1, H0090: 1, T0041: 1,H0641: 1, S0422: 1, L0371: 1, L0646: 1, L0662: 1, L0774: 1, L0805: 1,L0653: 1, L0659: 1, L0635: 1, L0526: 1, L0783: 1, L0663: 1, L0664: 1,L0665: 1, H0144: 1, T0068: 1, L3811: 1, H0519: 1, H0682: 1, S0152: 1,S0136: 1, L0744: 1, L0780: 1, L0758: 1, H0444: 1, H0445: 1, L0590: 1,L0594: 1, S0026: 1 and H0422: 1. 20 HCEEE79 560609 30 H0052: 1 21HCEFZ82 831745 31 L0748: 11, H0052: 8, L0803: 8, L0749: 8, L0770: 7,L0439: 5, L0746: 4, L0752: 4, L3811: 3, H0575: 2, H0012: 2, H0031: 2,L0768: 2, L0804: 2, L0774: 2, L0740: 2, L0747: 2, L0756: 2, L0779: 2,L0757: 2, L0758: 2, L0592: 2, L0593: 2, H0556: 1, S0420: 1, S0376: 1,H0441: 1, H0632: 1, S0010: 1, T0115: 1, H0545: 1, H0009: 1, H0620: 1,H0197: 1, H0051: 1, S0388: 1, S0051: 1, H0252: 1, H0032: 1, L0455: 1,H0591: 1, H0272: 1, L0564: 1, S0438: 1, S0344: 1, L0373: 1, L0646: 1,L0794: 1, L0766: 1, L0805: 1, L0776: 1, L0783: 1, L0809: 1, S0374: 1,H0522: 1, H0134: 1, L0780: 1, L0731: 1, L0759: 1, S0436: 1, L0597: 1,H0543: 1, H0423: 1 and L0600: 1. 22 HCUCF89 637986 32 AR313: 26, AR039:18, AR277: 13, AR299: 12, AR096: 11, AR089: 11, AR185: 11, AR300: 10,AR240: 8, AR316: 8, AR218: 5, AR282: 4, AR104: 4, AR060: 4, AR219: 3,AR055: 2, H0306: 1, L0761: 1 and H0436: 1. 23 HCWAE64 535893 33 AR277:7, AR282: 1, H0305: 1 24 HCWUL09 834722 34 AR277: 1, H0305: 9, H0589: 2and S0001: 1. 25 HDPDI72 897277 35 AR263: 7, AR039: 6, AR089: 5, AR184:5, AR096: 4, AR313: 4, AR299: 4, AR282: 3, AR277: 3, AR240: 3, AR060: 3,AR218: 3, AR249: 3, AR316: 3, AR185: 2, AR055: 2, AR274: 2, AR104: 2,AR267: 2, AR247: 2, AR300: 2, AR206: 1, AR283: 1, AR052: 1, AR312: 1,AR275: 1, AR183: 1, AR270: 1, AR309: 1, AR238: 1, H0521: 2 and H0580: 1.26 HDPFY18 779450 36 AR313: 9, AR039: 6, AR299: 4, AR300: 4, AR096: 3,AR185: 3, AR089: 3, AR316: 2, AR277: 2, AR240: 1, AR218: 1, AR060: 1S0114: 1, H0427: 1, H0123: 1, H0688: 1, H0264: 1, L0547: 1, L0518: 1,L3811: 1, H0521: 1, H0445: 1 and H0543: 1. 27 HDPIE44 899328 37 AR263:6, AR265: 3, AR184: 3, AR183: 3, AR096: 3, AR313: 3, AR269: 3, AR039: 3,AR104: 2, AR312: 2, AR270: 2, AR268: 2, AR298: 2, AR296: 2, AR292: 2,AR060: 2, AR052: 2, AR282: 2, AR291: 2, AR198: 2, AR316: 2, AR192: 2,AR299: 2, AR286: 2, AR267: 2, AR218: 2, AR055: 2, AR295: 2, AR290: 2,AR283: 2, AR089: 2, AR289: 1, AR231: 1, AR213: 1, AR247: 1, AR284: 1,AR293: 1, AR053: 1, AR033: 1, AR238: 1, AR258: 1, AR182: 1, AR177: 1,AR277: 1, AR185: 1, AR310: 1, L3811: 7, L0439: 7, L0759: 5, L0591: 5,L0803: 4, H0547: 4, L0748: 4, L0755: 4, L0596: 4, H0171: 3, S0376: 3,S0007: 3, H0024: 3, H0355: 3, H0615: 3, H0428: 3, H0090: 3, H0623: 3,S0422: 3, L0794: 3, L0766: 3, L0659: 3, H0144: 3, H0658: 3, S0406: 3,L0749: 3, L0758: 3, S0436: 3, H0624: 2, H0717: 2, S0358: 2, S0360: 2,H0486: 2, H0427: 2, S0010: 2, H0052: 2, H0251: 2, H0687: 2, H0622: 2,H0553: 2, H0644: 2, H0591: 2, S0438: 2, L0769: 2, L0662: 2, L0805: 2,S0374: 2, S0126: 2, H0689: 2, H0670: 2, H0521: 2, S0028: 2, L0744: 2,L0740: 2, L0754: 2, L0752: 2, L0593: 2, S0192: 2, H0506: 2, H0265: 1,H0294: 1, H0656: 1, S0212: 1, L0481: 1, S0418: 1, L0005: 1, S0356: 1,S0442: 1, S0408: 1, H0733: 1, H0208: 1, S0045: 1, H0619: 1, L0717: 1,S0222: 1, H0455: 1, L3653: 1, H0013: 1, H0599: 1, S0474: 1, H0196: 1,H0263: 1, H0046: 1, H0172: 1, H0050: 1, L0471: 1, H0012: 1, H0620: 1,H0014: 1, H0051: 1, H0356: 1, H0375: 1, S0316: 1, H0328: 1, H0688: 1,L0483: 1, S0364: 1, S0366: 1, H0135: 1, H0163: 1, H0038: 1, H0040: 1,H0634: 1, H0551: 1, H0488: 1, T0042: 1, H0494: 1, S0016: 1, H0625: 1,H0561: 1, S0440: 1, L2270: 1, S0344: 1, L3818: 1, H0538: 1, L0598: 1,L0770: 1, L0638: 1, L0641: 1, L0626: 1, L0804: 1, L0375: 1, L0784: 1,L0523: 1, L0806: 1, L0776: 1, L0526: 1, L0809: 1, L5622: 1, L0789: 1,L0793: 1, L4559: 1, L0663: 1, L4560: 1, L3826: 1, L3828: 1, H0683: 1,H0672: 1, H0651: 1, S0330: 1, H0539: 1, H0555: 1, S0390: 1, S0206: 1,L0747: 1, L0779: 1, S0308: 1, L0604: 1 and H0423: 1. 28 HDPIU94 81335238 AR055: 17, AR277: 13, AR060: 12, AR316: 9, AR219: 8, AR240: 8, AR089:8, AR300: 8, AR218: 8, AR039: 7, AR283: 7, AR096: 6, AR282: 5, AR104: 5,AR185: 4, AR299: 4, AR313: 2, L0748: 6, L0666: 5, L0665: 5, L0768: 4,L0777: 4, L0595: 4, H0352: 4, S0045: 3, H0124: 3, L0774: 3, S0028: 3,L0439: 3, L0756: 3, L0592: 3, S0376: 2, S0360: 2, H0619: 2, S0222: 2,L3816: 2, H0635: 2, H0036: 2, H0052: 2, H0046: 2, L0041: 2, S0312: 2,H0551: 2, L3815: 2, L0764: 2, L0663: 2, H0144: 2, L3825: 2, L0751: 2,L0754: 2, L0745: 2, L0731: 2, L0589: 2, H0653: 2, H0136: 2, H0216: 2,H0624: 1, S6024: 1, S0430: 1, H0656: 1, H0255: 1, S0046: 1, H0747: 1,H0645: 1, L2759: 1, H0013: 1, H0156: 1, H0575: 1, H0050: 1, S0050: 1,H0373: 1, H0687: 1, S0314: 1, S0250: 1, H0031: 1, H0135: 1, H0634: 1,H0616: 1, H0380: 1, H0264: 1, H0433: 1, H0059: 1, L0351: 1, S0422: 1,L0800: 1, L0662: 1, L0626: 1, L0766: 1, L0803: 1, L0375: 1, L0655: 1,L0659: 1, L0783: 1, L0809: 1, L0664: 1, L2263: 1, L2258: 1, L2259: 1,H0726: 1, L3826: 1, L3827: 1, H0648: 1, S0152: 1, L3833: 1, H0521: 1,S0390: 1, S3014: 1, S0027: 1, L0749: 1, L0750: 1, L0780: 1, L0758: 1,L0759: 1, S0260: 1 and L0366: 1. 29 HDPPD93 637588 39 AR202: 68, AR194:68, AR281: 64, AR244: 59, AR315: 56, AR205: 52, AR246: 50, AR280: 49,AR283: 45, AR314: 39, AR271: 38, AR232: 37, AR243: 37, AR241: 35, AR316:34, AR282: 33, AR204: 33, AR263: 32, AR089: 32, AR192: 32, AR265: 31,AR277: 31, AR206: 30, AR219: 29, AR310: 29, AR033: 29, AR096: 29, AR313:28, AR299: 28, AR240: 26, AR247: 26, AR273: 24, AR300: 24, AR198: 24,AR295: 24, AR274: 24, AR218: 24, AR039: 23, AR275: 23, AR055: 23, AR213:23, AR104: 22, AR251: 22, AR238: 20, AR177: 20, AR312: 20, AR060: 19,AR226: 19, AR052: 19, AR231: 18, AR053: 18, AR309: 18, AR234: 18, AR227:18, AR185: 17, AR292: 17, AR237: 17, AR229: 16, AR258: 16, AR183: 16,AR175: 15, AR294: 14, AR256: 13, AR259: 13, AR233: 13, AR293: 11, AR186:11, AR253: 10, AR061: 10, AR266: 10, AR267: 9, AR285: 8, AR248: 8,AR270: 8, AR296: 8, AR284: 7, AR179: 7, AR289: 7, AR249: 7, AR268: 6,AR269: 6, AR291: 6, AR184: 6, AR298: 5, AR286: 5, AR182: 5, AR290: 4,L0794: 6, L0748: 6, H0556: 5, L0771: 5, H0052: 4, L0756: 4, L0596: 4,H0265: 3, H0341: 3, H0587: 3, L0662: 3, L0803: 3, L0790: 3, S0152: 3,L0750: 3, S0114: 2, S0360: 2, H0318: 2, L0471: 2, L0369: 2, L0763: 2,L0770: 2, L0764: 2, L0766: 2, L0774: 2, L0378: 2, L0789: 2, L0666: 2,L3825: 2, H0547: 2, L0747: 2, L0777: 2, L0581: 2, H0543: 2, H0422: 2,S0218: 1, H0255: 1, S0418: 1, S0354: 1, S0376: 1, S0408: 1, L3649: 1,S0045: 1, H0747: 1, H0619: 1, L0717: 1, S0222: 1, H0431: 1, H0586: 1,H0013: 1, H0069: 1, S0049: 1, H0009: 1, H0071: 1, H0083: 1, H0428: 1,T0006: 1, H0424: 1, H0213: 1, H0644: 1, H0628: 1, H0135: 1, H0163: 1,H0616: 1, H0413: 1, H0059: 1, H0561: 1, S0448: 1, H0647: 1, L3818: 1,S0002: 1, L0769: 1, L0800: 1, L0363: 1, L0767: 1, L0768: 1, L0649: 1,L0804: 1, L0806: 1, L0657: 1, L0512: 1, L0659: 1, L0384: 1, L0647: 1,L5622: 1, L5623: 1, L0664: 1, L0665: 1, S0374: 1, L3828: 1, S0126: 1,H0711: 1, H0658: 1, H0666: 1, H0539: 1, H0753: 1, H0521: 1, H0522: 1,S0406: 1, H0555: 1, H0436: 1, L0439: 1, L0749: 1, S0031: 1, L0595: 1,H0136: 1, H0542: 1, H0423: 1, S0424: 1 and H0352: 1. 30 HDTLM18 83605740 AR313: 9, AR089: 5, AR299: 5, AR185: 4, AR300: 3, AR060: 3, AR096: 3,AR282: 3, AR039: 2, AR316: 2, AR055: 2, AR104: 2, AR240: 1, AR277: 1,AR283: 1, H0486: 1 and L0599: 1. 31 HE6CS65 762960 41 AR219: 61, AR277:59, AR218: 48, AR283: 47, AR282: 43, AR316: 39, AR089: 38, AR313: 36,AR299: 34, AR240: 33, AR104: 29, AR055: 29, AR096: 29, AR039: 27, AR185:26, AR300: 22, AR060: 21, L0777: 16, L0748: 12, L0757: 11, L0776: 8,L0439: 7, H0692: 6, H0046: 6, L0769: 5, L0666: 5, S0242: 5, L0770: 4,L0771: 4, L0438: 4, L0743: 4, L0754: 4, L0749: 4, L0758: 4, S0444: 3,H0051: 3, L0662: 3, L0766: 3, S0378: 3, L0751: 3, L0747: 3, S0436: 3,S0212: 2, H0637: 2, H0497: 2, H0545: 2, H0050: 2, H0031: 2, H0090: 2,H0100: 2, L0768: 2, L0561: 2, L0774: 2, L0775: 2, L0657: 2, H0670: 2,S3014: 2, L0744: 2, L0752: 2, L0581: 2, H0624: 1, H0170: 1, H0713: 1,H0717: 1, S6024: 1, T0049: 1, H0255: 1, S0356: 1, S0442: 1, S0358: 1,S0376: 1, S0360: 1, H0619: 1, L3651: 1, L0717: 1, S0278: 1, H0391: 1,H0333: 1, H0013: 1, H0053: 1, H0575: 1, S0346: 1, H0052: 1, H0263: 1,H0596: 1, L0738: 1, H0572: 1, H0510: 1, H0266: 1, H0688: 1, H0039: 1,H0622: 1, H0111: 1, H0181: 1, H0617: 1, H0032: 1, H0169: 1, H0634: 1,H0087: 1, H0412: 1, S0450: 1, S0440: 1, L0639: 1, L0637: 1, L0372: 1,L0646: 1, L0651: 1, L0806: 1, L0659: 1, L0792: 1, L0664: 1, L0665: 1,S0216: 1, H0144: 1, H0697: 1, S0374: 1, L3812: 1, H0520: 1, H0547: 1,H0658: 1, H0660: 1, H0648: 1, H0521: 1, H0696: 1, S0027: 1, S0028: 1,L0741: 1, L0740: 1, L0779: 1, L0731: 1, L0759: 1, S0260: 1, H0445: 1,S0434: 1, L0362: 1 and L0366: 1. 32 HE8BQ49 589443 42 H0013: 2 33HE9CY05 834826 43 AR039: 1, AR277: 1, AR300: 1, AR282: 1, L0748: 8,L0749: 3, L0471: 2 and H0144: 1. 34 HEAAW94 847340 44 AR282: 3, AR218:3, AR299: 2, AR039: 2, AR277: 2, AR096: 1, AR316: 1, AR055: 1, AR300: 1,L0439: 26, L0438: 20, L0748: 17, L0766: 16, L0754: 16, L0731: 16, H0556:9, L0740: 8, S0222: 7, H0090: 7, L0774: 7, H0144: 6, L0745: 6, L0779: 6,L0777: 6, L0758: 6, S0003: 5, L0662: 5, L0794: 5, S0418: 4, H0575: 4,L0776: 4, L0751: 4, L0749: 4, L0756: 4, L0780: 4, L0752: 4, L0591: 4,H0423: 4, H0341: 3, S0360: 3, H0369: 3, H0156: 3, L0435: 3, L0769: 3,L0775: 3, L0809: 3, L0666: 3, H0547: 3, S0328: 3, H0521: 3, L0747: 3,L0750: 3, H0543: 3, H0171: 2, S0442: 2, S0354: 2, S0358: 2, S0132: 2,S0278: 2, H0497: 2, T0039: 2, H0706: 2, H0036: 2, S0474: 2, H0596: 2,H0009: 2, H0375: 2, S6028: 2, H0266: 2, S0214: 2, H0328: 2, H0622: 2,H0644: 2, H0591: 2, H0413: 2, T0041: 2, L0770: 2, L0796: 2, L0363: 2,L0806: 2, L0659: 2, L0542: 2, L0783: 2, L0791: 2, L0665: 2, L3811: 2,H0518: 2, S3014: 2, S0028: 2, H0595: 2, S0434: 2, S0436: 2, L0589: 2,L0604: 2, L0601: 2, H0542: 2, S0424: 2, L0411: 1, H0624: 1, H0170: 1,L0615: 1, H0265: 1, S0342: 1, S6024: 1, S0134: 1, H0657: 1, S0212: 1,H0450: 1, S0420: 1, L0005: 1, S0444: 1, H0580: 1, H0741: 1, S0045: 1,S0476: 1, H0393: 1, H0550: 1, H0441: 1, H0370: 1, H0600: 1, H0586: 1,H0587: 1, H0486: 1, H0250: 1, H0635: 1, L0021: 1, S0182: 1, L0563: 1,H0052: 1, H0309: 1, H0046: 1, L0157: 1, H0566: 1, H0081: 1, H0050: 1,H0057: 1, S0051: 1, S0318: 1, S0316: 1, H0687: 1, S0250: 1, H0615: 1,H0428: 1, H0039: 1, L0483: 1, H0553: 1, L0055: 1, H0032: 1, H0673: 1,S0366: 1, H0038: 1, H0634: 1, H0380: 1, H0488: 1, H0623: 1, H0059: 1,S0112: 1, L0351: 1, H0641: 1, H0646: 1, S0344: 1, S0002: 1, S0426: 1,L0638: 1, L4747: 1, L0761: 1, L0627: 1, L0372: 1, L0646: 1, L0374: 1,L0644: 1, L0771: 1, L0767: 1, L0768: 1, L0549: 1, L0550: 1, L0533: 1,L0804: 1, L0650: 1, L0375: 1, L0651: 1, L0523: 1, L0655: 1, L0782: 1,L0790: 1, L0663: 1, L0664: 1, S0148: 1, L0352: 1, H0520: 1, H0519: 1,S0126: 1, H0672: 1, H0754: 1, S0152: 1, H0522: 1, H0696: 1, S0044: 1,S0406: 1, L0612: 1, S3012: 1, L0746: 1, L0786: 1, L0759: 1, H0445: 1,L0684: 1, L0608: 1, H0667: 1, S0276: 1 and H0422: 1. 35 HEBFR46 84706445 AR313: 58, AR039: 47, AR300: 30, AR096: 29, AR299: 29, AR277: 28,AR089: 27, AR185: 27, AR316: 22, AR219: 22, AR104: 21, AR218: 20, AR240:20, AR282: 15, AR060: 15, AR055: 11, AR283: 7, H0457: 10, H0550: 5,H0436: 5, H0549: 4, H0616: 4, L0519: 4, H0556: 3, H0580: 3, S0007: 3,S0046: 3, L0809: 3, L0747: 3, L0777: 3, S0436: 3, H0295: 2, T0040: 2,H0266: 2, L0761: 2, L0783: 2, L0789: 2, H0658: 2, H0521: 2, L0753: 2,L0731: 2, L0596: 2, H0543: 2, S0040: 1, S0116: 1, S0282: 1, H0662: 1,H0402: 1, H0125: 1, L0534: 1, L0562: 1, S0356: 1, S0358: 1, H0749: 1,L3816: 1, H0559: 1, H0069: 1, H0599: 1, H0618: 1, H0253: 1, H0581: 1,H0546: 1, H0123: 1, S0051: 1, H0083: 1, H0687: 1, H0284: 1, H0124: 1,H0038: 1, H0551: 1, H0623: 1, S0038: 1, T0041: 1, S0440: 1, S0150: 1,L3818: 1, S0002: 1, L0763: 1, L0769: 1, L5575: 1, L0627: 1, L0800: 1,L0662: 1, L0803: 1, L0793: 1, L0666: 1, L2264: 1, L3825: 1, L3827: 1,L3828: 1, H0547: 1, H0519: 1, H0539: 1, S0037: 1, S0206: 1, L0748: 1,L0749: 1, H0595: 1, L0593: 1, S0194: 1 and S0276: 1. 36 HEOMC46 86617146 AR277: 48, AR283: 34, AR219: 31, AR218: 30, AR316: 28, AR313: 27,AR282: 27, AR089: 25, AR299: 23, AR240: 23, AR096: 22, AR039: 22, AR104:20, AR185: 20, AR300: 19, AR055: 19, AR060: 13, H0749: 2, H0581: 2,H0457: 2 and S0116: 1. 37 HFCDW95 847383 47 L0766: 9, L0803: 8, H0341:7, H0521: 7, L0770: 6, L0771: 6, L0754: 6, L0752: 6, L0731: 6, S0354: 5,S0422: 5, L0662: 5, H0519: 5, L0439: 5, L0779: 5, L0758: 5, S0436: 5,H0009: 4, H0673: 4, L0800: 4, L0521: 4, L0805: 4, L0659: 4, L0809: 4,L0438: 4, S0028: 4, L0485: 4, L0601: 4, H0657: 3, H0638: 3, S0418: 3,H0733: 3, S0007: 3, S0222: 3, L3655: 3, S0214: 3, H0529: 3, L0369: 3,L0794: 3, L0649: 3, L0776: 3, L0665: 3, L3391: 3, H0144: 3, H0670: 3,S0406: 3, L0756: 3, L0755: 3, L0759: 3, H0667: 3, S0420: 2, S0358: 2,S0360: 2, H0580: 2, H0729: 2, S0476: 2, H0645: 2, S6026: 2, S0300: 2,L2543: 2, H0156: 2, S0010: 2, H0085: 2, H0178: 2, H0375: 2, S6028: 2,H0266: 2, S0003: 2, H0428: 2, H0169: 2, S0036: 2, H0090: 2, H0634: 2,L0640: 2, L0769: 2, L0637: 2, L0761: 2, L0646: 2, L0774: 2, L0775: 2,L0806: 2, L0807: 2, L0783: 2, L5622: 2, L0666: 2, L2653: 2, L2264: 2,H0725: 2, L3827: 2, H0547: 2, H0435: 2, H0659: 2, S0380: 2, S3014: 2,S0206: 2, L0740: 2, L0753: 2, L0757: 2, S0434: 2, L0596: 2, H0668: 2,H0542: 2, H0170: 1, H0556: 1, S0342: 1, H0713: 1, H0717: 1, H0716: 1,H0294: 1, L2877: 1, T0049: 1, S0218: 1, L2910: 1, L2915: 1, L2991: 1,S0282: 1, S0400: 1, L2289: 1, H0241: 1, H0402: 1, L0534: 1, L0539: 1,S0376: 1, S0444: 1, S0410: 1, H0329: 1, H0722: 1, H0728: 1, H0734: 1,S0045: 1, H0749: 1, H0406: 1, H0411: 1, H0443: 1, S0220: 1, H0441: 1,H0415: 1, H0438: 1, H0362: 1, H0333: 1, H0574: 1, L0623: 1, H0486: 1,L1819: 1, T0060: 1, H0013: 1, H0427: 1, H0599: 1, H0575: 1, H0318: 1,S0474: 1, H0581: 1, H0374: 1, T0110: 1, H0150: 1, H0563: 1, H0050: 1,H0014: 1, S0388: 1, S0051: 1, H0687: 1, H0039: 1, H0030: 1, H0553: 1,H0644: 1, H0628: 1, H0166: 1, L0455: 1, H0708: 1, S0366: 1, H0591: 1,H0038: 1, H0551: 1, H0380: 1, H0623: 1, S0386: 1, T0042: 1, H0494: 1,H0561: 1, S0370: 1, H0509: 1, H0130: 1, H0641: 1, L0598: 1, L0763: 1,L0638: 1, L0796: 1, L0667: 1, L0630: 1, L0373: 1, L0641: 1, L0773: 1,L5569: 1, L5574: 1, L0381: 1, L0655: 1, L0607: 1, L0661: 1, L0527: 1,L0518: 1, L5623: 1, L0787: 1, L0789: 1, L0790: 1, L0792: 1, L0793: 1,L0710: 1, L2262: 1, L2380: 1, L2412: 1, S0374: 1, H0520: 1, S0126: 1,H0648: 1, H0710: 1, H0522: 1, H0696: 1, H0555: 1, H0436: 1, S0392: 1,S3012: 1, L0742: 1, L0745: 1, L0747: 1, L0749: 1, L0777: 1, L0593: 1,L0366: 1, S0026: 1, S0242: 1, S0276: 1, S0196: 1, H0543: 1, H0423: 1,S0460: 1, L3357: 1 and L3372: 1. 38 HFEBO17 852218 48 AR089: 12, AR218:11, AR060: 10, AR299: 10, AR219: 10, AR313: 9, AR055: 9, AR316: 9,AR240: 8, AR282: 8, AR096: 8, AR185: 8, AR104: 7, AR039: 7, AR277: 7,AR300: 6, AR283: 4, L0803: 4, L0438: 4, L0766: 2, L0526: 2, H0659: 2,S0444: 1, S0408: 1, H0421: 1, H0081: 1, H0050: 1, S0370: 1, L0770: 1,L0637: 1, L0646: 1, L0800: 1, L0662: 1, L0804: 1, L0607: 1, L0659: 1,L0790: 1, L0665: 1, L0352: 1, H0648: 1, H0651: 1, S0328: 1, H0436: 1,L0749: 1, L0750: 1, L0777: 1, L0752: 1, L0599: 1, S0242: 1 and H0422: 1.39 HFIJA29 839206 49 AR263: 10, AR184: 8, AR313: 5, AR241: 5, AR251: 5,AR039: 4, AR052: 4, AR198: 4, AR192: 4, AR204: 4, AR312: 4, AR183: 4,AR296: 4, AR282: 3, AR096: 3, AR268: 3, AR229: 3, AR182: 3, AR285: 3,AR053: 3, AR270: 3, AR269: 3, AR299: 3, AR309: 3, AR316: 3, AR089: 3,AR291: 3, AR247: 3, AR238: 3, AR298: 3, AR266: 3, AR277: 2, AR185: 2,AR248: 2, AR213: 2, AR177: 2, AR289: 2, AR202: 2, AR290: 2, AR300: 2,AR186: 2, AR240: 2, AR295: 2, AR246: 2, AR293: 2, AR226: 2, AR292: 2,AR284: 2, AR294: 2, AR234: 2, AR175: 2, AR227: 2, AR258: 2, AR253: 2,AR286: 2, AR256: 2, AR233: 2, AR259: 2, AR231: 2, AR237: 1, AR060: 1,AR033: 1, AR219: 1, AR244: 1, AR271: 1, AR104: 1, AR267: 1, AR232: 1,AR218: 1, AR055: 1, L0766: 20, L0754: 10, L0776: 8, L0803: 5, L0749: 5,H0661: 4, L0740: 4, L0751: 4, L0608: 4, L0770: 3, L0750: 3, L0761: 2,L0794: 2, L0806: 2, L0783: 2, L0809: 2, L0789: 2, L0438: 2, S0404: 2,L0745: 2, L0777: 2, L0755: 2, L0758: 2, S0134: 1, H0638: 1, S0358: 1,S0408: 1, S0045: 1, S0046: 1, H0581: 1, H0023: 1, H0355: 1, S0214: 1,L0055: 1, H0477: 1, L0796: 1, L3905: 1, L0772: 1, L0646: 1, L0800: 1,L0642: 1, L0764: 1, L0773: 1, L0363: 1, L0768: 1, L0804: 1, L0774: 1,L0805: 1, L0655: 1, L0807: 1, L0526: 1, L0531: 1, H0689: 1, S0378: 1,S0152: 1, S0406: 1, H0732: 1, L0742: 1, L0748: 1, L0747: 1, L0753: 1,L0757: 1, S0194: 1, H0422: 1 and S0424: 1. 40 HFKFX64 566835 50 AR273:15, AR244: 9, AR274: 9, AR192: 9, AR184: 8, AR186: 8, AR204: 8, AR052:7, AR243: 7, AR202: 7, AR269: 7, AR271: 6, AR198: 6, AR206: 6, AR312: 6,AR246: 6, AR247: 6, AR241: 5, AR213: 5, AR275: 5, AR309: 5, AR253: 5,AR061: 5, AR055: 5, AR267: 5, AR182: 5, AR060: 5, AR268: 4, AR053: 4,AR282: 4, AR205: 4, AR194: 4, AR185: 4, AR033: 3, AR183: 3, AR277: 3,AR270: 3, AR240: 3, AR266: 3, AR310: 3, AR104: 3, AR291: 3, AR313: 3,AR248: 3, AR219: 3, AR249: 3, AR265: 3, AR251: 3, AR300: 3, AR295: 2,AR229: 2, AR237: 2, AR294: 2, AR299: 2, AR218: 2, AR293: 2, AR233: 2,AR238: 2, AR283: 2, AR292: 2, AR175: 2, AR226: 2, AR316: 2, AR039: 2,AR089: 2, AR227: 2, AR296: 2, AR231: 2, AR234: 2, AR289: 2, AR096: 2,AR298: 2, AR177: 2, AR286: 1, AR259: 1, AR256: 1, AR179: 1, AR263: 1,H0012: 3 and L0809: 1. 41 HGBER72 826710 51 AR313: 68, AR039: 56, AR299:36, AR185: 31, AR096: 30, AR300: 28, AR277: 27, AR089: 27, AR219: 25,AR316: 22, AR218: 21, AR104: 20, AR282: 17, AR060: 15, AR240: 14, AR055:11, AR283: 7, L0766: 12, H0436: 9, H0543: 8, L0769: 6, L0749: 6, L0731:6, H0556: 5, L0655: 5, S0434: 5, L0439: 4, L0758: 4, S0114: 3, H0255: 3,L3904: 3, L0794: 3, L0776: 3, L0659: 3, L0783: 3, L0809: 3, L0751: 3,H0423: 3, S0358: 2, S0360: 2, S0007: 2, H0549: 2, H0550: 2, H0486: 2,H0014: 2, S0388: 2, H0424: 2, H0031: 2, H0628: 2, L5575: 2, L0771: 2,L0662: 2, L0791: 2, L0793: 2, L2265: 2, L0438: 2, S0328: 2, L0740: 2,L0756: 2, H0265: 1, H0686: 1, S0134: 1, H0657: 1, H0656: 1, S0001: 1,S0418: 1, L0619: 1, S0442: 1, S0408: 1, H0730: 1, H0749: 1, H0619: 1,H0351: 1, S0222: 1, H0592: 1, H0586: 1, T0060: 1, H0250: 1, H0618: 1,H0318: 1, H0052: 1, H0251: 1, H0545: 1, H0569: 1, H0012: 1, H0201: 1,S6028: 1, H0288: 1, H0622: 1, T0023: 1, L0483: 1, H0604: 1, S0036: 1,H0135: 1, H0040: 1, H0264: 1, S0039: 1, L0640: 1, L0763: 1, L0770: 1,L0761: 1, L0648: 1, L0521: 1, L0533: 1, L0774: 1, L0775: 1, L0376: 1,L0378: 1, L0629: 1, L5623: 1, L0666: 1, L0664: 1, S0310: 1, L3811: 1,H0689: 1, H0659: 1, H0660: 1, H0648: 1, H0696: 1, H0576: 1, S0028: 1,L0742: 1, L0750: 1, L0779: 1, L0777: 1, L0752: 1, L0591: 1, L0601: 1,H0542: 1 and H0506: 1. 42 HGBGN34 648659 52 AR240: 13, AR060: 11, AR055:10, AR218: 7, AR096: 7, AR185: 7, AR282: 7, AR089: 6, AR283: 6, AR300:6, AR299: 6, AR104: 5, AR316: 5, AR277: 4, AR313: 3, AR039: 3, AR219: 2,L0747: 5, H0716: 2, H0427: 2, S0280: 2, H0662: 1, S0444: 1, H0441: 1,H0492: 1, T0001: 1, H0014: 1, H0030: 1, H0674: 1, L5575: 1, L0659: 1,S0330: 1, L0752: 1 and S0436: 1. 43 HGLBG15 701990 53 AR055: 14, AR162:7, AR161: 7, AR163: 7, AR104: 6, AR060: 6, AR218: 6, AR191: 6, AR089: 6,AR197: 6, AR261: 6, AR269: 5, AR170: 5, AR176: 5, AR165: 5, AR185: 5,AR188: 5, AR164: 5, AR189: 5, AR291: 5, AR166: 5, AR246: 5, AR190: 5,AR096: 5, AR257: 4, AR240: 4, AR243: 4, AR288: 4, AR309: 4, AR272: 4,AR316: 4, AR275: 4, AR270: 4, AR175: 4, AR290: 4, AR274: 4, AR053: 4,AR219: 4, AR289: 4, AR264: 4, AR255: 4, AR199: 4, AR268: 4, AR204: 4,AR286: 4, AR271: 4, AR039: 4, AR205: 3, AR173: 3, AR196: 3, AR233: 3,AR287: 3, AR262: 3, AR215: 3, AR267: 3, AR300: 3, AR200: 3, AR177: 3,AR296: 3, AR181: 3, AR283: 3, AR299: 3, AR295: 3, AR239: 3, AR311: 3,AR282: 3, AR297: 3, AR174: 3, AR285: 3, AR294: 3, AR293: 3, AR168: 3,AR201: 3, AR238: 3, AR235: 3, AR217: 3, AR313: 3, AR198: 3, AR312: 3,AR258: 3, AR203: 3, AR178: 3, AR254: 3, AR211: 2, AR263: 2, AR247: 2,AR193: 2, AR237: 2, AR266: 2, AR277: 2, AR256: 2, AR182: 2, AR171: 2,AR210: 2, AR250: 2, AR260: 2, AR195: 2, AR172: 2, AR207: 2, AR236: 2,AR232: 2, AR221: 2, AR226: 2, AR224: 2, AR216: 1, AR179: 1, AR033: 1,AR061: 1, AR252: 1, L0803: 19, S0474: 17, L0748: 13, S0408: 11, H0351:11, L2669: 11, L2504: 10, L0770: 10, L0805: 9, L0439: 9, L0754: 9,S0422: 8, L0809: 8, L0794: 6, L0755: 6, L0731: 6, L0758: 6, S0360: 5,H0265: 4, S0414: 4, H0581: 4, H0271: 4, L0771: 4, L0804: 4, L0776: 4,L0659: 4, L0666: 4, L0749: 4, L0591: 4, H0327: 3, L0806: 3, L0655: 3,L0636: 3, L0565: 3, H0436: 3, L0777: 3, S0434: 3, S0436: 3, S0412: 3,S0116: 2, S0212: 2, H0661: 2, S0358: 2, S0132: 2, L3388: 2, S0222: 2,H0123: 2, H0266: 2, S0003: 2, H0031: 2, H0551: 2, L0598: 2, L0638: 2,L0662: 2, L0766: 2, L0650: 2, L0664: 2, L0665: 2, S0374: 2, H0547: 2,H0435: 2, H0660: 2, S0378: 2, L0740: 2, L0750: 2, L0756: 2, L0752: 2,H0624: 1, H0556: 1, S0040: 1, H0295: 1, S0114: 1, H0656: 1, L2904: 1,S0001: 1, H0671: 1, S0356: 1, S0442: 1, S0376: 1, S0444: 1, H0675: 1,H0730: 1, H0741: 1, H0208: 1, S0045: 1, S0476: 1, H0393: 1, H0550: 1,H0431: 1, H0586: 1, H0642: 1, L3499: 1, H0013: 1, H0069: 1, H0635: 1,H0427: 1, H0156: 1, L0021: 1, H0042: 1, T0082: 1, H0590: 1, S0010: 1,H0318: 1, H0251: 1, H0596: 1, L0040: 1, H0545: 1, H0457: 1, H0009: 1,N0006: 1, L0471: 1, H0024: 1, H0051: 1, H0083: 1, H0061: 1, S0316: 1,H0687: 1, H0688: 1, H0644: 1, H0617: 1, H0591: 1, H0038: 1, H0040: 1,H0616: 1, H0264: 1, H0100: 1, H0561: 1, S0440: 1, L2270: 1, S0426: 1,H0529: 1, L0763: 1, L0637: 1, L0761: 1, L0373: 1, L0646: 1, L0800: 1,L0764: 1, L0626: 1, L0653: 1, L0606: 1, L0661: 1, L0515: 1, L5622: 1,L0789: 1, L0792: 1, L0793: 1, L0663: 1, L2653: 1, L2257: 1, L2259: 1,L2261: 1, L2654: 1, H0144: 1, L0438: 1, H0520: 1, H0519: 1, H0659: 1,H0658: 1, S0328: 1, S0330: 1, S0380: 1, H0710: 1, H0521: 1, H0522: 1,H0696: 1, S0044: 1, S0406: 1, S0027: 1, L0742: 1, L0744: 1, L0751: 1,L0745: 1, L0747: 1, L0779: 1, L0780: 1, L0757: 1, L0759: 1, S0031: 1,S0260: 1, L0596: 1, L0605: 1, L0595: 1, S0026: 1, S0192: 1, S0242: 1,H0542: 1, H0543: 1, S0042: 1 and S0462: 1. 44 HHFEC39 609873 54 AR055:11, AR104: 8, AR060: 8, AR218: 7, AR277: 7, AR096: 6, AR300: 6, AR219:6, AR299: 5, AR089: 5, AR283: 5, AR316: 5, AR240: 5, AR039: 5, AR185: 4,AR282: 3, AR313: 3, L0805: 21, L0776: 19, L0751: 14, L0759: 13, L0770:11, H0615: 8, L0803: 8, L0438: 7, L0439: 7, L0758: 7, L0769: 6, L0521:6, L0754: 6, H0624: 5, H0486: 5, L0500: 5, L0807: 5, L0740: 5, L0591: 5,H0716: 4, H0351: 4, L0774: 4, H0144: 4, S0328: 4, L0748: 4, L0745: 4,L0604: 4, S0414: 3, H0013: 3, S0250: 3, H0428: 3, H0644: 3, H0591: 3,L0659: 3, L0783: 3, L0809: 3, L0791: 3, L0793: 3, L0666: 3, H0670: 3,L0779: 3, L0777: 3, L0731: 3, H0583: 2, S0408: 2, L0717: 2, S0280: 2,S0010: 2, H0052: 2, H0024: 2, T0010: 2, H0594: 2, H0266: 2, H0031: 2,H0032: 2, T0067: 2, L0796: 2, L0662: 2, L0794: 2, L0806: 2, L0518: 2,L0792: 2, L3643: 1, S0342: 1, L0002: 1, H0657: 1, H0255: 1, H0305: 1,H0728: 1, H0733: 1, H0734: 1, S0007: 1, H0645: 1, H0640: 1, H0369: 1,H0261: 1, H0549: 1, H0550: 1, S0222: 1, H0586: 1, T0040: 1, L3655: 1,L0021: 1, L0022: 1, L0105: 1, T0071: 1, L0109: 1, H0194: 1, H0263: 1,H0566: 1, H0050: 1, L0471: 1, H0051: 1, S0051: 1, S0024: 1, H0355: 1,H0510: 1, H0271: 1, L0328: 1, H0039: 1, H0622: 1, L0483: 1, H0124: 1,S0036: 1, H0038: 1, H0616: 1, H0412: 1, H0059: 1, H0100: 1, H0646: 1,S0422: 1, S0002: 1, H0743: 1, H0529: 1, L0520: 1, L0640: 1, L0763: 1,L0773: 1, L0364: 1, L0649: 1, L0497: 1, L0526: 1, L0788: 1, L0789: 1,L0663: 1, L0665: 1, S0374: 1, H0780: 1, H0547: 1, S0126: 1, H0689: 1,H0648: 1, S0330: 1, S0378: 1, H0522: 1, S0037: 1, L0747: 1, L0750: 1,L0780: 1, L0752: 1, H0595: 1, S0434: 1, L0608: 1, L0594: 1, L0361: 1,L0603: 1, S0026: 1, S0192: 1, S0194: 1, H0423: 1, S0398: 1, S0460: 1,H0506: 1, H0008: 1 and H0352: 1. 45 HHSDI53 862028 55 AR313: 45, AR039:43, AR300: 22, AR299: 22, AR096: 21, AR316: 20, AR185: 19, AR089: 19,AR277: 19, AR219: 15, AR240: 14, AR104: 14, AR218: 13, AR282: 12, AR060:11, AR055: 8, AR283: 4, L0766: 10, L0752: 8, L0439: 6, L0747: 6, L0740:5, L0756: 5, S0408: 4, L0779: 4, L0777: 4, L0731: 4, S0051: 3, H0169: 3,L0803: 3, L0774: 3, L0809: 3, L0754: 3, S0360: 2, H0574: 2, S0422: 2,L0763: 2, L0805: 2, L0666: 2, L0663: 2, L0751: 2, L0755: 2, L0759: 2,L0601: 2, H0624: 1, S0040: 1, H0713: 1, S0114: 1, S0298: 1, S0420: 1,S0444: 1, H0580: 1, H0730: 1, H0733: 1, L3388: 1, H0351: 1, H0600: 1,H0331: 1, H0013: 1, L0021: 1, H0575: 1, H0590: 1, T0110: 1, H0012: 1,H0615: 1, H0031: 1, H0553: 1, H0591: 1, S0440: 1, H0646: 1, S0002: 1,L0772: 1, L0645: 1, L0773: 1, L0662: 1, L0794: 1, L0381: 1, L0775: 1,L0776: 1, L0657: 1, L0659: 1, L0528: 1, L5622: 1, L0790: 1, H0547: 1,H0648: 1, H0539: 1, S0152: 1, H0696: 1, S0044: 1, S0406: 1, S0028: 1,L0758: 1, S0434: 1, S0436: 1, L0366: 1, S0011: 1, S0276: 1, H0422: 1,S0398: 1 and S0424: 1. 46 HISBA38 561711 56 AR277: 1, L0766: 3, H0318: 1and H0539: 1. 47 HJPBK28 638191 57 L0794: 6, L0439: 5, L0759: 5, H0556:4, L0771: 4, L0770: 3, L0643: 3, H0144: 3, H0156: 2, H0188: 2, H0090: 2,H0641: 2, L0662: 2, L0766: 2, L0803: 2, L0776: 2, L0661: 2, L0659: 2,L0790: 2, H0522: 2, S0436: 2, H0295: 1, T0049: 1, H0583: 1, S0116: 1,H0663: 1, H0662: 1, S0356: 1, S0376: 1, S0132: 1, H0586: 1, H0587: 1,H0486: 1, H0575: 1, H0748: 1, H0744: 1, H0309: 1, L0231: 1, H0083: 1,H0271: 1, H0286: 1, H0622: 1, H0031: 1, L0455: 1, H0068: 1, H0063: 1,H0551: 1, H0264: 1, H0268: 1, T0041: 1, H0494: 1, H0633: 1, L0637: 1,L3905: 1, L0800: 1, L0775: 1, L0806: 1, L0383: 1, L0809: 1, L0666: 1,L0663: 1, L0664: 1, L2264: 1, L3827: 1, L3828: 1, H0519: 1, H0593: 1,H0435: 1, H0672: 1, H0436: 1, S0027: 1, L0740: 1, L0749: 1, L0731: 1,L0757: 1, L0758: 1, H0136: 1, H0423: 1 and S0446: 1. 48 HKABU43 83857358 AR219: 2, AR282: 1, AR300: 1, AR316: 1, L0794: 7, L0803: 3, H0052: 2,S0250: 2, H0032: 2, H0494: 2, H0529: 2, L0666: 2, L0663: 2, L0747: 2,L0759: 2, H0657: 1, H0664: 1, H0662: 1, S0442: 1, H0741: 1, H0735: 1,H0733: 1, S0046: 1, H0640: 1, H0331: 1, H0559: 1, T0039: 1, H0013: 1,S0280: 1, H0318: 1, T0110: 1, H0024: 1, S0364: 1, H0591: 1, H0038: 1,H0040: 1, S0142: 1, L0640: 1, L0667: 1, L0764: 1, L0662: 1, L0804: 1,L0659: 1, L0517: 1, L0789: 1, L4559: 1, L0664: 1, S0126: 1, H0435: 1,H0539: 1, S0152: 1, H0521: 1, H0522: 1, S0027: 1, L0779: 1, L0758: 1,L0485: 1, L0601: 1, S0026: 1, H0667: 1, S0192: 1, H0542: 1 and H0506: 1.49 HLYGE16 651339 59 AR055: 2, AR185: 2, AR316: 1, AR060: 1, AR283: 1,H0255: 5, H0144: 3, H0429: 2, L0662: 2, L0794: 2, L0803: 2, L0809: 2,L0758: 2, L0599: 2, H0542: 2, S0040: 1, H0650: 1, S0442: 1, H0642: 1,L0157: 1, H0571: 1, H0673: 1, H0494: 1, L0771: 1, L0766: 1, L0776: 1,L0629: 1, L0657: 1, L0659: 1, L0792: 1, L0565: 1, H0345: 1, L0748: 1,L0754: 1, L0747: 1, L0749: 1, H0445: 1 and S0242: 1. 50 HLYGY91 65870360 AR313: 6, AR316: 5, AR218: 3, AR300: 3, AR299: 3, AR055: 3, AR185: 2,AR039: 2, AR096: 2, AR277: 2, AR219: 1, AR089: 1 H0692: 10, L0777: 10,L0805: 5, L0803: 3, L2497: 2, H0328: 2, L0662: 2, L0794: 2, L0809: 2,L3832: 2, L0748: 2, L0752: 2, L0599: 2, H0170: 1, H0402: 1, S0444: 1,S0360: 1, H0747: 1, L2486: 1, L3503: 1, H0427: 1, H0644: 1, H0038: 1,L0800: 1, L0648: 1, L0804: 1, H0670: 1, H0478: 1, L0731: 1, L0758: 1,H0445: 1, S0434: 1, L0591: 1 and L0362: 1. 51 HMCFH60 654853 61 AR104:113, AR219: 90, AR218: 87, AR089: 82, AR283: 79, AR277: 79, AR313: 78,AR055: 75, AR240: 71, AR316: 70, AR185: 63, AR282: 60, AR299: 59, AR096:54, AR039: 50, AR060: 48, AR300: 38 L0659: 10, T0040: 9, L0665: 9,L0759: 9, L0519: 8, L0776: 7, S0436: 7, L0744: 6, L0747: 6, L0749: 6,L0758: 6, S0418: 5, H0052: 5, H0457: 5, H0150: 5, L0769: 5, L0766: 5,L0748: 5, H0265: 4, S0420: 4, S0356: 4, S0360: 4, S0046: 4, S0010: 4,H0545: 4, H0687: 4, H0494: 4, S0440: 4, L0662: 4, L0768: 4, L0774: 4,L0775: 4, L0751: 4, L0754: 4, L0779: 4, H0484: 3, H0734: 3, H0549: 3,H0599: 3, H0421: 3, H0620: 3, S0051: 3, L0764: 3, L0666: 3, H0435: 3,H0648: 3, H0539: 3, L0596: 3, H0543: 3, H0624: 2, H0171: 2, H0556: 2,H0295: 2, H0657: 2, H0656: 2, S0354: 2, S0358: 2, S0376: 2, S0408: 2,S0007: 2, S0132: 2, S0476: 2, S0222: 2, H0486: 2, T0039: 2, H0635: 2,H0156: 2, H0618: 2, T0048: 2, H0581: 2, H0544: 2, H0373: 2, H0428: 2,T0006: 2, H0604: 2, H0031: 2, H0551: 2, T0067: 2, H0264: 2, H0647: 2,S0344: 2, L0638: 2, L0372: 2, L0641: 2, L0806: 2, L0653: 2, L0527: 2,L0809: 2, L0565: 2, L0438: 2, H0519: 2, H0689: 2, H0658: 2, H0672: 2,S0330: 2, S0406: 2, H0436: 2, S0027: 2, L0750: 2, S0434: 2, L0605: 2,S0194: 2, H0506: 2, H0685: 1, H0713: 1, H0717: 1, H0740: 1, H0294: 1,S0212: 1, S0110: 1, S0282: 1, H0483: 1, S0442: 1, H0637: 1, H0733: 1,S0468: 1, H0747: 1, L3388: 1, H0351: 1, H0550: 1, H0587: 1, H0642: 1,H0559: 1, L0622: 1, L3653: 1, H0013: 1, H0250: 1, H0069: 1, S0280: 1,H0706: 1, S0346: 1, H0705: 1, H0318: 1, S0049: 1, H0748: 1, L0040: 1,H0597: 1, L0738: 1, H0009: 1, H0563: 1, H0123: 1, H0050: 1, L0471: 1,H0012: 1, H0024: 1, H0014: 1, S0388: 1, H0239: 1, H0594: 1, S6028: 1,H0271: 1, H0292: 1, H0213: 1, H0628: 1, H0673: 1, H0068: 1, S0036: 1,H0135: 1, H0090: 1, H0038: 1, H0634: 1, H0087: 1, H0488: 1, H0268: 1,H0412: 1, H0413: 1, S0038: 1, T0042: 1, H0560: 1, H0641: 1, S0210: 1,S0422: 1, S0002: 1, H0529: 1, L0770: 1, L0637: 1, L3905: 1, L5566: 1,L0761: 1, L0772: 1, L0646: 1, L0374: 1, L0771: 1, L4500: 1, L0651: 1,L0784: 1, L0807: 1, L0657: 1, L0658: 1, L0656: 1, L0782: 1, L0783: 1,L0530: 1, L0647: 1, L0788: 1, L0663: 1, L0664: 1, S0216: 1, H0693: 1,L3826: 1, H0520: 1, H0547: 1, S0126: 1, H0682: 1, H0659: 1, S0328: 1,S0380: 1, H0710: 1, H0521: 1, H0522: 1, H0627: 1, S0028: 1, L0741: 1,L0742: 1, L0439: 1, L0740: 1, L0756: 1, L0786: 1, L0780: 1, L0755: 1,L0581: 1, L0595: 1, L0601: 1, H0667: 1, S0192: 1, H0542: 1, L0718: 1 andS0424: 1. 52 HMIAK10 562774 62 AR055: 7, AR218: 7, AR060: 6, AR219: 6,AR185: 4, AR283: 4, AR240: 4, AR300: 4, AR104: 3, AR089: 3, AR299: 3,AR039: 3, AR316: 2, AR277: 2, AR096: 2, AR313: 2, AR282: 2, S6028: 1 53HMIBD93 634227 63 AR277: 111, AR283: 78, AR219: 72, AR316: 65, AR104:61, AR055: 58, AR089: 55, AR218: 54, AR313: 49, AR282: 48, AR299: 47,AR039: 44, AR185: 41, AR096: 39, AR240: 36, AR060: 33, AR300: 31, L0439:6, L0751: 5, L0770: 3, L0769: 3, L0764: 3, H0617: 2, L0766: 2, L0752: 2,H0445: 2, S6024: 1, H0351: 1, S0222: 1, H0586: 1, S0010: 1, S6028: 1,L0768: 1, L0794: 1, L0438: 1, L0747: 1, L0753: 1 and L0758: 1. 54HMWJF53 758158 64 H0255: 7, H0318: 5, H0620: 5, L0754: 5, L0766: 4,L0666: 4, S0358: 3, H0457: 3, H0135: 3, L0776: 3, L0809: 3, H0696: 3,S3012: 3, H0624: 2, H0295: 2, H0254: 2, H0662: 2, H0402: 2, H0305: 2,S0132: 2, L0717: 2, L0021: 2, H0617: 2, H0673: 2, L0769: 2, L0638: 2,L0796: 2, L0667: 2, L0662: 2, L0653: 2, L0783: 2, L0663: 2, S0126: 2,H0539: 2, H0521: 2, S0044: 2, S0027: 2, L0745: 2, L0747: 2, L0755: 2,L0587: 2, H0352: 2, H0170: 1, H0556: 1, H0657: 1, H0341: 1, S0212: 1,S0418: 1, S0360: 1, S0410: 1, H0339: 1, H0549: 1, S0222: 1, H0441: 1,H0331: 1, H0486: 1, H0427: 1, H0575: 1, T0048: 1, H0581: 1, H0052: 1,H0545: 1, H0150: 1, H0570: 1, H0569: 1, L0163: 1, H0083: 1, H0355: 1,H0252: 1, H0039: 1, T0023: 1, H0124: 1, H0090: 1, H0413: 1, H0560: 1,H0561: 1, S0372: 1, H0509: 1, H0652: 1, S0144: 1, S0422: 1, L0762: 1,L0770: 1, L0761: 1, L0373: 1, L0372: 1, L0645: 1, L0764: 1, L0771: 1,L0648: 1, L0768: 1, L0649: 1, L0804: 1, L0651: 1, L0806: 1, L0655: 1,L0659: 1, L0517: 1, L0528: 1, L0665: 1, H0698: 1, S0374: 1, L0438: 1,H0684: 1, H0658: 1, H0670: 1, S0328: 1, S0380: 1, H0134: 1, S0406: 1,L0743: 1, L0749: 1, L0750: 1, L0779: 1, L0759: 1, S0031: 1, H0445: 1,H0653: 1, S0194: 1, S0276: 1, H0542: 1 and S0460: 1. 55 HNECL22 79954165 AR218: 10, AR219: 10, AR185: 10, AR277: 9, AR283: 8, AR282: 8, AR039:8, AR089: 8, AR316: 7, AR055: 7, AR096: 7, AR104: 7, AR240: 7, AR299: 6,AR313: 6, AR060: 5, AR300: 5, L0748: 54, L0766: 20, L0754: 18, H0179:12, L0777: 12, L0750: 11, L0749: 10, S0116: 9, H0271: 9, L0761: 9,H0031: 8, L0794: 8, H0144: 8, L0744: 8, H0457: 7, S0356: 6, H0393: 6,H0013: 6, L0438: 6, L0743: 6, L0751: 6, L0745: 6, L0779: 6, L0758: 6,H0421: 5, L0805: 5, H0436: 5, H0305: 4, H0599: 4, H0050: 4, L0769: 4,L0646: 4, L0771: 4, L0803: 4, L0776: 4, L0809: 4, S0428: 4, L0603: 4,H0662: 3, S0358: 3, S0045: 3, H0747: 3, H0549: 3, H0497: 3, S0474: 3,H0674: 3, H0591: 3, H0625: 3, S0422: 3, L0800: 3, L0773: 3, L0792: 3,L0666: 3, S0052: 3, S0028: 3, L0759: 3, H0542: 3, H0556: 2, H0341: 2,H0402: 2, S0354: 2, S0376: 2, S0046: 2, H0559: 2, H0575: 2, H0590: 2,H0581: 2, H0024: 2, H0266: 2, H0553: 2, H0032: 2, H0673: 2, H0087: 2,H0264: 2, H0100: 2, H0494: 2, H0529: 2, L0774: 2, L0493: 2, L0659: 2,L0790: 2, L0664: 2, H0518: 2, S0044: 2, L0747: 2, L0780: 2, L0752: 2,L0605: 2, L0599: 2, L0593: 2, H0721: 2, H0171: 1, L3642: 1, L3644: 1,S0114: 1, H0583: 1, L0785: 1, H0419: 1, H0255: 1, H0589: 1, H0638: 1,H0125: 1, S0418: 1, S0444: 1, H0151: 1, S0476: 1, H0619: 1, S6026: 1,H0261: 1, H0431: 1, H0392: 1, H0069: 1, H0075: 1, H0635: 1, T0070: 1,H0156: 1, H0618: 1, S0010: 1, H0318: 1, H0310: 1, H0052: 1, H0251: 1,T0110: 1, H0046: 1, H0439: 1, H0086: 1, H0081: 1, H0057: 1, H0051: 1,H0375: 1, S0002: 1, S0426: 1, L0598: 1, L0641: 1, L0764: 1, L0768: 1,L0807: 1, L0514: 1, L0658: 1, L0783: 1, L5623: 1, L0788: 1, L0663: 1,L0665: 1, S0374: 1, H0519: 1, S0122: 1, H0659: 1, H0658: 1, H0666: 1,H0672: 1, S0328: 1, H0521: 1, H0522: 1, S0406: 1, H0555: 1, H0478: 1,H0727: 1, L0742: 1, L0755: 1, L0731: 1, S0011: 1, S0026: 1, H0543: 1,H0423: 1, H0422: 1 and H0506: 1. 56 HNFAC50 815676 66 AR055: 8, AR277:6, AR060: 5, AR282: 5, AR299: 5, AR283: 5, AR039: 5, AR240: 5, AR104: 4,AR300: 4, AR218: 4, AR089: 4, AR185: 4, AR096: 3, AR316: 3, AR313: 2,AR219: 1, L0769: 5, L0756: 4, S0444: 3, L0774: 3, H0624: 2, S0408: 2,H0587: 2, L0764: 2, L0766: 2, H0170: 1, H0497: 1, H0333: 1, H0156: 1,L0022: 1, H0271: 1, S0344: 1, L0637: 1, L0772: 1, L0773: 1, L0662: 1,L0775: 1, L0809: 1, L0791: 1, L0663: 1, H0144: 1, S0374: 1, L3811: 1,H0593: 1, H0660: 1, H0648: 1, H0672: 1, H0696: 1, L0749: 1, L0750: 1,L0779: 1, L0752: 1, L0755: 1, L0599: 1, L0601: 1 and H0667: 1. 57HNGEA34 815678 67 AR055: 6, AR060: 5, AR240: 4, AR218: 4, AR282: 3,AR300: 3, AR104: 3, AR277: 3, AR283: 3, AR185: 3, AR089: 3, AR096: 2,AR316: 2, AR219: 2, AR039: 2, AR313: 2, AR299: 2, H0393: 1 and S0052: 1.58 HNGIV64 561572 68 AR185: 8, AR039: 8, AR060: 8, AR313: 7, AR055: 7,AR096: 6, AR300: 6, AR089: 6, AR240: 6, AR218: 6, AR299: 6, AR277: 6,AR316: 5, AR104: 5, AR283: 4, AR282: 3, AR219: 1, S0052: 1 59 HNGKT41836061 69 AR316: 11, AR055: 6, AR060: 6, AR277: 5, AR300: 5, AR282: 5,AR104: 4, AR240: 4, AR185: 4, AR218: 3, AR283: 3, AR313: 3, AR039: 3,AR089: 3, AR219: 3, AR096: 2, AR299: 2, S0428: 1 60 HNGNO53 836063 70AR055: 7, AR060: 6, AR240: 5, AR300: 5, AR218: 5, AR185: 4, AR283: 4,AR299: 4, AR277: 4, AR089: 4, AR104: 3, AR316: 3, AR096: 3, AR219: 2,AR313: 2, AR039: 2, AR282: 1, S0428: 2 and L0439: 1. 61 HNHCT47 63469171 AR313: 39, AR039: 38, AR219: 29, AR218: 24, AR299: 23, AR185: 22,AR096: 21, AR089: 20, AR300: 17, AR316: 15, AR060: 14, AR277: 14, AR104:13, AR055: 12, AR240: 11, AR282: 10, AR283: 8, S0053: 2 and S0046: 1. 62HNHKI74 777856 72 S0216: 1 63 HORBS82 638293 73 H0706: 2, L0809: 2,S0360: 1, L0623: 1, H0122: 1, H0041: 1, H0095: 1, H0292: 1, H0424: 1,S0364: 1, L0794: 1, L0787: 1, L0663: 1, H0780: 1, H0435: 1, L0743: 1,L0747: 1 and L0731: 1. 64 HOUDE92 580866 74 H0052: 17, L0745: 11, L0748:10, H0547: 7, L0439: 7, L0755: 6, L0771: 5, L0774: 5, L0662: 4, L0746:4, L0777: 4, S0474: 3, L0163: 3, H0059: 3, H0100: 3, L0775: 3, L0741: 3,H0261: 2, H0333: 2, H0194: 2, H0545: 2, H0012: 2, H0617: 2, H0135: 2,L0770: 2, L0665: 2, L0438: 2, H0520: 2, L0747: 2, L0752: 2, L0753: 2,S0040: 1, L0717: 1, H0437: 1, H0550: 1, S6016: 1, H0497: 1, H0574: 1,H0599: 1, H0575: 1, H0618: 1, H0253: 1, H0041: 1, H0620: 1, H0373: 1,H0188: 1, H0124: 1, H0068: 1, H0040: 1, H0561: 1, S0448: 1, S0210: 1,L0763: 1, L0644: 1, L0767: 1, L0768: 1, L0375: 1, L0651: 1, L0659: 1,L0540: 1, L5622: 1, H0144: 1, H0593: 1, S0126: 1, H0539: 1, S0152: 1,H0694: 1, S0390: 1, S0028: 1, L0749: 1, L0786: 1, L0780: 1, L0731: 1,L0757: 1, L0758: 1, S0436: 1, L0592: 1 and S0276: 1. 65 HOUFS04 77156475 AR218: 41, AR219: 38, AR096: 23, AR185: 23, AR277: 22, AR299: 22,AR282: 20, AR055: 18, AR316: 17, AR039: 16, AR089: 14, AR240: 13, AR283:13, AR104: 12, AR300: 10, AR313: 10, AR060: 10, L0745: 15, S0414: 6,H0351: 5, H0013: 5, S0422: 5, L0803: 5, H0144: 4, H0413: 3, H0519: 3,L0754: 3, L0759: 3, S0242: 3, H0624: 2, H0580: 2, S0045: 2, L3655: 2,H0421: 2, H0375: 2, H0428: 2, H0553: 2, L0598: 2, L0775: 2, L5622: 2,L0666: 2, L0664: 2, L0665: 2, H0520: 2, H0547: 2, S0126: 2, H0672: 2,S0380: 2, H0521: 2, L0743: 2, L0744: 2, L0605: 2, H0171: 1, H0556: 1,H0685: 1, S0040: 1, S0114: 1, H0657: 1, S0212: 1, S0444: 1, H0733: 1,H0734: 1, H0749: 1, S0132: 1, H0619: 1, L3388: 1, H0411: 1, S0278: 1,H0549: 1, S0222: 1, L3816: 1, H0486: 1, S0280: 1, H0575: 1, L0105: 1,H0581: 1, H0052: 1, H0545: 1, H0594: 1, S6028: 1, H0687: 1, S0250: 1,H0031: 1, S0364: 1, L0455: 1, H0124: 1, H0591: 1, H0038: 1, S0450: 1,L0763: 1, L0638: 1, L0637: 1, L0662: 1, L0794: 1, L0649: 1, L0654: 1,L0382: 1, L0792: 1, L3811: 1, L3824: 1, L3828: 1, H0435: 1, H0518: 1,H0696: 1, H0436: 1, S0432: 1, S0390: 1, S0037: 1, S3014: 1, S0028: 1,S0124: 1, L0751: 1, L0756: 1, L0779: 1, L0777: 1, L0780: 1, L0752: 1,L0755: 1, S0031: 1, L0599: 1, S0196: 1, H0423: 1, H0422: 1 and H0721: 1.66 HOUHI25 888279 76 AR219: 18, AR218: 16, AR055: 8, AR104: 6, AR096: 5,AR316: 5, AR039: 5, AR300: 5, AR060: 4, AR277: 4, AR089: 3, AR299: 3,AR185: 3, AR283: 3, AR282: 2, AR240: 2, AR313: 1, S0436: 7, H0551: 6,L2985: 5, H0599: 5, L0805: 5, L0756: 5, L0758: 5, L0759: 5, L0754: 4,L0747: 4, L3655: 3, H0545: 3, S0003: 3, L0375: 3, H0144: 3, L0755: 3,S0442: 2, L3649: 2, S0045: 2, L3816: 2, H0013: 2, L0471: 2, H0373: 2,H0051: 2, H0560: 2, S0422: 2, L0768: 2, L0803: 2, L0650: 2, L0659: 2,L0438: 2, L0439: 2, L0740: 2, L0750: 2, L0779: 2, L0757: 2, S0242: 2,H0739: 1, H0624: 1, S0040: 1, S0342: 1, S0116: 1, S0212: 1, S0444: 1,H0747: 1, L3280: 1, H0357: 1, H0587: 1, L0021: 1, S0010: 1, L0105: 1,S0474: 1, H0544: 1, H0046: 1, S0051: 1, H0266: 1, H0622: 1, H0032: 1,H0388: 1, H0598: 1, H0413: 1, S0438: 1, H0641: 1, S0002: 1, L0770: 1,L3904: 1, L0662: 1, L0776: 1, L0809: 1, L0519: 1, L5622: 1, L5623: 1,L0663: 1, L0664: 1, L2260: 1, L2381: 1, L2673: 1, L3827: 1, H0520: 1,S0126: 1, L3832: 1, L0753: 1, S0434: 1, L0599: 1, S0011: 1, H0667: 1,L3560: 1 and L3585: 1. 67 HPCAL26 762822 77 L0659: 11, S0126: 11, L0731:11, S0192: 11, L0666: 9, L0777: 7, T0049: 5, S0358: 5, L0771: 5, L0757:5, S0360: 4, S0440: 4, L0740: 4, L0758: 4, S0212: 3, S0356: 3, S0046: 3,H0369: 3, H0545: 3, L0662: 3, L0774: 3, L0809: 3, H0519: 3, L0752: 3,S0011: 3, H0295: 2, H0662: 2, S0468: 2, H0012: 2, H0024: 2, H0356: 2,H0616: 2, H0268: 2, H0412: 2, L0646: 2, L0803: 2, S0013: 2, L0754: 2,L0747: 2, L0759: 2, S0040: 1, S0418: 1, S0442: 1, S0376: 1, H0676: 1,L0717: 1, H0550: 1, S0222: 1, H0574: 1, L0021: 1, H0575: 1, H0036: 1,H0590: 1, H0618: 1, T0048: 1, H0309: 1, H0596: 1, T0110: 1, H0546: 1,H0046: 1, H0123: 1, H0014: 1, S0003: 1, S0022: 1, H0428: 1, H0622: 1,H0031: 1, H0673: 1, L0455: 1, H0316: 1, H0598: 1, H0163: 1, H0038: 1,H0433: 1, H0413: 1, T0069: 1, S0438: 1, H0633: 1, H0647: 1, S0210: 1,L0770: 1, L0769: 1, L0768: 1, L0794: 1, L0519: 1, L0789: 1, L0790: 1,L0664: 1, L0665: 1, H0144: 1, S0330: 1, S0136: 1, H0696: 1, S3014: 1,S0206: 1, L0751: 1, L0749: 1, L0756: 1, L0779: 1, S0031: 1, S0242: 1,S0194: 1 and S0276: 1. 68 HPEBA84 753957 78 AR313: 5, AR240: 4, AR299:4, AR185: 4, AR300: 4, AR060: 4, AR055: 3, AR089: 3, AR096: 2, AR282: 2,AR039: 2, AR218: 2, AR316: 2, AR277: 1, AR219: 1, AR104: 1, L0591: 2,L3643: 1, S0420: 1, L3388: 1, H0057: 1, H0166: 1, L0648: 1, L0518: 1,L0809: 1, L0519: 1, L0754: 1 and L0599: 1. 69 HSAVA08 580870 79 AR313:39, AR039: 39, AR299: 18, AR089: 17, AR096: 17, AR185: 16, AR277: 16,AR300: 16, AR104: 12, AR316: 12, AR240: 10, AR219: 10, AR218: 9, AR060:9, AR282: 9, AR055: 8, AR283: 5, S0114: 2 70 HSHAX04 812178 80 AR299:18, AR219: 18, AR104: 17, AR218: 17, AR277: 17, AR313: 16, AR316: 15,AR283: 14, AR055: 13, AR096: 13, AR039: 12, AR240: 12, AR060: 12, AR282:11, AR089: 11, AR185: 10, AR300: 10, L0731: 6, H0265: 4, L0483: 4,H0424: 4, H0253: 3, H0318: 3, L0769: 3, L0774: 3, L0776: 3, S0037: 3,L0742: 3, L0750: 3, L0755: 3, S0360: 2, H0581: 2, H0266: 2, H0213: 2,H0124: 2, H0413: 2, L0766: 2, L0659: 2, L0809: 2, S3014: 2, L0749: 2,L0757: 2, L0758: 2, L0759: 2, L0596: 2, L0595: 2, H0543: 2, H0422: 2,H0686: 1, H0685: 1, S0040: 1, H0295: 1, H0294: 1, S0430: 1, H0638: 1,S0418: 1, S0420: 1, S0354: 1, S0358: 1, S0376: 1, S0045: 1, H0586: 1,H0497: 1, H0333: 1, H0486: 1, H0069: 1, H0575: 1, H0618: 1, H0052: 1,H0085: 1, H0009: 1, S0051: 1, H0083: 1, H0284: 1, H0428: 1, H0417: 1,H0553: 1, H0628: 1, H0038: 1, H0280: 1, H0494: 1, H0625: 1, S0150: 1,S0426: 1, L0667: 1, L0646: 1, L0764: 1, L0773: 1, L0648: 1, L0767: 1,L0768: 1, L0375: 1, L0806: 1, L0519: 1, L0666: 1, L0663: 1, H0698: 1,H0689: 1, H0539: 1, H0518: 1, S0027: 1, S0028: 1, L0747: 1, L0752: 1,H0707: 1, L0597: 1, L0581: 1, L0361: 1, H0653: 1, H0542: 1 and H0506: 1.71 HSKDR27 580874 81 AR055: 9, AR104: 9, AR218: 7, AR060: 7, AR299: 6,AR185: 6, AR039: 6, AR240: 5, AR089: 5, AR219: 5, AR300: 5, AR283: 5,AR316: 4, AR313: 4, AR096: 3, AR277: 3, AR282: 2, S0027: 95, S0192: 54,S3014: 53, S0126: 42, S0040: 35, H0424: 23, S0028: 22, S0037: 19, S3012:16, H0213: 13, T0006: 12, H0250: 11, S0032: 11, L0744: 11, T0040: 10,H0124: 10, H0429: 10, L0740: 10, L0588: 10, L0754: 9, H0545: 8, H0280:8, S0194: 8, S0196: 7, H0392: 6, T0039: 6, H0150: 6, H0039: 6, S0206: 6,L0743: 6, L0731: 6, S0342: 5, S0212: 5, S0045: 5, H0486: 5, H0575: 5,H0014: 5, H0090: 5, H0551: 5, H0100: 5, S0044: 5, S0011: 5, H0255: 4,H0318: 4, H0271: 4, S0022: 4, H0031: 4, H0181: 4, H0032: 4, H0038: 4,T0067: 4, S0124: 4, L0747: 4, L0749: 4, H0402: 3, H0309: 3, H0046: 3,S0250: 3, H0068: 3, H0087: 3, H0059: 3, S0142: 3, S0053: 3, H0419: 2,S0116: 2, S0408: 2, S0132: 2, S0278: 2, S0222: 2, H0331: 2, T0060: 2,H0069: 2, H0427: 2, H0599: 2, T0082: 2, H0253: 2, H0546: 2, H0086: 2,H0123: 2, H0024: 2, H0015: 2, H0510: 2, H0428: 2, T0023: 2, H0163: 2,H0063: 2, H0509: 2, L0772: 2, L0805: 2, S0052: 2, H0547: 2, H0518: 2,L0748: 2, L0751: 2, L0745: 2, L0750: 2, L0777: 2, L0755: 2, L0757: 2,H0445: 2, L0590: 2, L0599: 2, S0026: 2, S0242: 2, H0171: 1, H0265: 1,H0716: 1, H0294: 1, S0298: 1, H0662: 1, H0450: 1, S0360: 1, H0329: 1,S0046: 1, H0411: 1, S6022: 1, H0431: 1, H0357: 1, H0455: 1, H0586: 1,H0587: 1, L0021: 1, H0042: 1, T0048: 1, H0505: 1, H0052: 1, H0251: 1,H0235: 1, H0231: 1, H0544: 1, H0050: 1, H0051: 1, H0071: 1, H0083: 1,H0060: 1, H0266: 1, H0188: 1, H0292: 1, S0214: 1, H0328: 1, H0033: 1,H0417: 1, H0553: 1, H0628: 1, H0617: 1, H0606: 1, H0383: 1, H0212: 1,H0388: 1, H0135: 1, H0040: 1, H0487: 1, H0413: 1, T0069: 1, H0560: 1,H0538: 1, S0210: 1, L0763: 1, L0646: 1, L0641: 1, L0649: 1, L0803: 1,L0652: 1, L0629: 1, L0659: 1, L0787: 1, L0665: 1, H0435: 1, H0528: 1,H0521: 1, H0555: 1, L0779: 1, L0581: 1, S0276: 1 and H0008: 1. 72HSQBF66 560726 82 AR313: 16, AR039: 13, AR089: 11, AR299: 10, AR185: 9,AR277: 8, AR055: 8, AR060: 8, AR240: 8, AR096: 8, AR300: 8, AR104: 7,AR316: 7, AR282: 7, AR218: 6, AR283: 5, AR219: 3, S0026: 1 73 HSRFD18840771 83 AR055: 2, AR039: 1, L0754: 10, S0422: 5, S0022: 4, L0803: 4,L0748: 4, L0747: 4, L0591: 4, H0486: 3, L0766: 3, L0805: 3, L0526: 3,L0665: 3, S0434: 3, S0212: 2, S0444: 2, S0360: 2, S0222: 2, L3816: 2,H0013: 2, H0596: 2, L0471: 2, H0166: 2, H0591: 2, H0509: 2, L0646: 2,L0662: 2, L0659: 2, L0666: 2, L0664: 2, S0374: 2, L0779: 2, L0777: 2,L0759: 2, S0436: 2, H0624: 1, H0170: 1, S0114: 1, S0001: 1, H0671: 1,H0663: 1, H0402: 1, H0305: 1, S0442: 1, S0408: 1, H0329: 1, H0742: 1,L3387: 1, H0581: 1, H0421: 1, H0194: 1, H0263: 1, H0597: 1, H0569: 1,H0355: 1, H0510: 1, H0179: 1, H0687: 1, H0615: 1, L0483: 1, H0553: 1,H0644: 1, H0673: 1, H0674: 1, H0100: 1, S0450: 1, H0714: 1, L0763: 1,L0770: 1, L0761: 1, L0649: 1, L0776: 1, L0518: 1, L0790: 1, L0791: 1,L0792: 1, L0663: 1, H0547: 1, H0670: 1, H0521: 1, H0696: 1, S0406: 1,H0555: 1, H0478: 1, L0780: 1, H0707: 1, S0276: 1 and H0543: 1. 74HSWBE76 751308 84 AR277: 11, AR282: 11, AR283: 10, AR219: 8, AR218: 8,AR104: 7, AR060: 7, AR240: 6, AR316: 6, AR299: 6, AR185: 6, AR300: 5,AR089: 5, AR039: 5, AR055: 5, AR096: 5, AR313: 4, L0777: 4, L0751: 3,L0747: 3, L0648: 2, L0779: 2, L0753: 2, S0342: 1, H0484: 1, H0661: 1,S0358: 1, L0009: 1, H0411: 1, S6014: 1, H0546: 1, H0123: 1, H0188: 1,S0366: 1, H0413: 1, S0344: 1, H0529: 1, L0769: 1, L0627: 1, L0774: 1,L0378: 1, L0776: 1, L0655: 1, L0663: 1, S0380: 1, H0478: 1, L0743: 1,L0750: 1 and S0196: 1. 75 HT3BF49 838620 85 H0271: 2, L0791: 2, L0439:2, H0159: 1, H0561: 1, L0774: 1, S0052: 1 and L0779: 1. 76 HTEEW69764835 86 AR104: 36, AR283: 28, AR219: 27, AR218: 27, AR316: 21, AR277:20, AR089: 20, AR055: 19, AR096: 18, AR313: 18, AR240: 18, AR282: 18,AR185: 16, AR299: 16, AR060: 15, AR039: 14, AR300: 12, H0038: 8, H0616:4, L0779: 3, L0758: 3, L0753: 2, L0032: 1, T0006: 1, H0040: 1, L0768: 1and H0547: 1. 77 HTEHU59 840385 87 AR313: 11, AR218: 10, AR219: 9,AR039: 7, AR316: 6, AR096: 6, AR104: 6, AR277: 5, AR299: 5, AR055: 5,AR282: 4, AR089: 4, AR283: 3, AR300: 3, AR060: 3, AR240: 3, AR185: 3,S0422: 6, H0038: 4, L0758: 4, L0754: 3, S0360: 2, H0024: 2, L0598: 2,L0766: 2, L0748: 2, L0747: 2, L0756: 2, H0583: 1, H0341: 1, S0418: 1,L0005: 1, H0741: 1, H0437: 1, H0369: 1, H0581: 1, H0194: 1, S0050: 1,H0271: 1, H0428: 1, T0006: 1, H0068: 1, H0412: 1, H0056: 1, H0494: 1,S0426: 1, L0772: 1, L0646: 1, L0662: 1, L0803: 1, L0806: 1, L0776: 1,L0655: 1, L0789: 1, L0792: 1, H0144: 1, S0374: 1, H0670: 1, H0627: 1,S0026: 1 and S0192: 1. 78 HTEMQ17 840387 88 AR282: 6, AR055: 6, AR060:5, AR218: 4, AR283: 4, AR300: 3, AR299: 3, AR316: 3, AR039: 3, AR185: 3,AR104: 2, AR089: 2, AR219: 2, AR313: 2, AR096: 2, AR240: 1, L0748: 6,L0766: 4, H0038: 3, H0616: 3, H0056: 2, H0529: 2, H0519: 2, H0624: 1,H0662: 1, S0418: 1, S0360: 1, H0749: 1, H0013: 1, H0581: 1, S0388: 1,H0266: 1, H0591: 1, H0087: 1, H0413: 1, H0561: 1, S0438: 1, S0422: 1,L0520: 1, L0769: 1, L0794: 1, L0775: 1, L0666: 1, L0663: 1, H0547: 1,S0152: 1, L0740: 1, L0777: 1, L0753: 1, L0758: 1, L0608: 1 and H0542: 1.79 HTGBK95 834490 89 AR277: 83, AR313: 74, AR219: 72, AR283: 69, AR316:57, AR039: 49, AR218: 49, AR089: 48, AR299: 46, AR282: 42, AR104: 42,AR096: 42, AR185: 40, AR240: 39, AR055: 37, AR300: 32, AR060: 32, L0777:5, S0444: 3, L0766: 3, L0803: 3, L0439: 3, S0360: 2, L0598: 2, L0666: 2,L0748: 2, T0049: 1, S0134: 1, S0116: 1, S0408: 1, L0717: 1, H0586: 1,H0486: 1, H0575: 1, H0510: 1, H0553: 1, H0560: 1, S0422: 1, L0763: 1,L0769: 1, L0521: 1, L0767: 1, L0768: 1, L0775: 1, L0663: 1, S0374: 1,L0438: 1, H0520: 1, H0682: 1, S0328: 1, S0406: 1, L0740: 1, S0192: 1 andH0543: 1. 80 HTLEM16 779133 90 AR104: 96, AR219: 74, AR277: 67, AR283:59, AR218: 52, AR185: 51, AR089: 49, AR316: 46, AR096: 44, AR240: 44,AR313: 42, AR055: 40, AR299: 37, AR282: 37, AR060: 33, AR039: 33, AR300:24, L0439: 31, L0741: 24, H0056: 13, L0748: 12, H0052: 9, H0521: 9,L0776: 8, L0744: 8, L0438: 7, L0754: 7, S0474: 6, L0766: 6, L0742: 6,L0731: 6, L0750: 5, S0278: 4, L5566: 4, L0665: 4, H0522: 4, H0556: 3,H0716: 3, H0657: 3, S0358: 3, H0580: 3, H0599: 3, S0049: 3, H0009: 3,H0553: 3, H0641: 3, S0142: 3, L0764: 3, L0659: 3, L0666: 3, S0126: 3,L0751: 3, H0717: 2, H0656: 2, S0029: 2, S0420: 2, S0360: 2, S0007: 2,H0497: 2, H0486: 2, H0618: 2, H0253: 2, H0581: 2, H0046: 2, S0388: 2,T0010: 2, H0039: 2, H0424: 2, L0456: 2, S0036: 2, H0135: 2, H0551: 2,H0623: 2, H0494: 2, S0002: 2, L0770: 2, L0796: 2, L5575: 2, L5565: 2,L0761: 2, L0662: 2, L0650: 2, L0383: 2, L0663: 2, H0682: 2, L0758: 2,S0434: 2, L0596: 2, L0581: 2, S0242: 2, S0114: 1, H0583: 1, L0422: 1,S0116: 1, H0662: 1, H0305: 1, S0418: 1, L0005: 1, S0444: 1, S0046: 1,S0476: 1, H0645: 1, H0437: 1, H0261: 1, H0392: 1, H0600: 1, H0586: 1,H0574: 1, L0623: 1, H0013: 1, H0250: 1, H0427: 1, H0002: 1, H0575: 1,T0082: 1, H0590: 1, S0010: 1, H0390: 1, T0048: 1, H0318: 1, H0421: 1,H0251: 1, H0232: 1, H0546: 1, H0150: 1, H0041: 1, H0178: 1, H0569: 1,H0620: 1, H0051: 1, S0051: 1, H0510: 1, H0416: 1, H0188: 1, S0312: 1,S0314: 1, H0622: 1, H0213: 1, H0031: 1, L0143: 1, H0032: 1, L0455: 1,S0366: 1, H0038: 1, H0087: 1, H0264: 1, H0268: 1, H0022: 1, H0560: 1,H0625: 1, H0561: 1, S0438: 1, H0509: 1, H0633: 1, H0649: 1, S0144: 1,S0208: 1, H0529: 1, L0769: 1, L0637: 1, L0667: 1, L5568: 1, L0774: 1,L0375: 1, L0805: 1, L0653: 1, L0654: 1, L0661: 1, L0807: 1, L0527: 1,L0382: 1, L0809: 1, L0793: 1, S0006: 1, S0428: 1, S0053: 1, S0310: 1,L0352: 1, H0547: 1, H0684: 1, H0670: 1, H0660: 1, S0152: 1, H0696: 1,S0406: 1, H0555: 1, H0436: 1, S3014: 1, L0743: 1, L0745: 1, L0747: 1,L0749: 1, L0756: 1, L0753: 1, L0755: 1, H0445: 1, S0436: 1, L0485: 1,H0667: 1, H0216: 1, H0543: 1, H0422: 1 and H0008: 1. 81 HTNBK13 83196791 L0779: 5, L0731: 4, L0593: 4, H0046: 3, L0776: 3, L0666: 3, H0031: 2,L0772: 2, L0774: 2, L0805: 2, H0670: 2, L0439: 2, L0754: 2, L0777: 2,L0758: 2, L0590: 2, T0002: 1, L0717: 1, H0632: 1, L0622: 1, T0082: 1,H0581: 1, H0263: 1, T0115: 1, H0597: 1, L0471: 1, H0012: 1, H0620: 1,H0163: 1, T0067: 1, L0770: 1, L0637: 1, L0388: 1, L0657: 1, L0382: 1,L0664: 1, S0126: 1, H0660: 1, S0378: 1, H0521: 1, L0747: 1, L0750: 1,L0756: 1, L0752: 1, L0755: 1, L0759: 1, S0031: 1, L0599: 1 and L0603: 1.82 HTODN35 570901 92 AR104: 20, AR185: 11, AR055: 11, AR060: 10, AR089:10, AR299: 10, AR240: 9, AR277: 8, AR282: 8, AR313: 7, AR300: 7, AR316:7, AR283: 5, AR096: 5, AR218: 4, AR219: 4, AR039: 3, H0264: 1 83 HTPDU17840596 93 AR039: 5, AR277: 4, AR300: 4, AR282: 3, AR316: 3, AR096: 3,AR218: 3, AR299: 3, AR060: 2, AR055: 2, AR283: 2, AR185: 2, AR104: 2,AR313: 2, AR089: 1, AR240: 1, H0677: 19, L0759: 6, L0748: 5, H0040: 4,L0438: 3, L0754: 3, L0750: 3, L0777: 3, H0255: 2, H0617: 2, H0038: 2,H0529: 2, L0769: 2, L0761: 2, L0662: 2, L0666: 2, S0406: 2, L0749: 2,L0758: 2, L0595: 2, H0265: 1, H0556: 1, H0717: 1, S0134: 1, H0650: 1,H0657: 1, S0358: 1, S0444: 1, S0410: 1, S0045: 1, H0411: 1, H0392: 1,L0468: 1, H0587: 1, H0013: 1, H0069: 1, H0635: 1, H0575: 1, H0618: 1,H0581: 1, H0564: 1, H0569: 1, S6028: 1, H0266: 1, H0252: 1, H0615: 1,H0039: 1, H0031: 1, H0634: 1, H0100: 1, H0494: 1, H0334: 1, H0561: 1,S0150: 1, S0422: 1, L0667: 1, L0646: 1, L0800: 1, L0771: 1, L0661: 1,L0809: 1, L0790: 1, L0792: 1, L0663: 1, L0665: 1, S0374: 1, H0547: 1,H0519: 1, H0593: 1, H0672: 1, H0518: 1, H0521: 1, H0555: 1, H0436: 1,L0439: 1, L0779: 1, L0731: 1 and L0757: 1. 84 HTTDN24 766485 94 AR218:21, AR219: 20, AR089: 15, AR300: 14, AR316: 14, AR185: 13, AR313: 13,AR277: 13, AR282: 13, AR039: 12, AR299: 11, AR096: 11, AR055: 10, AR104:8, AR240: 7, AR060: 7, AR283: 6 85 HTTEE41 840950 95 AR219: 84, AR218:59, AR316: 43, AR313: 32, AR104: 24, AR089: 24, AR185: 24, AR039: 23,AR096: 23, AR299: 21, AR055: 20, AR060: 17, AR282: 14, AR300: 14, AR283:11, AR240: 11, AR277: 10, H0040: 17, H0251: 14, L0758: 10, L0748: 8,L0731: 8, H0494: 7, L0666: 7, H0144: 7, H0659: 7, L0747: 7, L0749: 7,L0757: 7, H0038: 6, H0529: 6, L0770: 6, L0662: 6, L0659: 6, H0013: 5,H0318: 5, H0616: 5, S0440: 5, L0775: 5, L0776: 5, H0519: 5, L0588: 5,L0592: 5, H0341: 4, S0360: 4, H0412: 4, L0663: 4, H0547: 4, L0754: 4,L0595: 4, H0542: 4, H0543: 4, H0423: 4, H0171: 3, H0657: 3, H0656: 3,S0045: 3, L3388: 3, H0581: 3, S0049: 3, T0110: 3, H0046: 3, H0090: 3,H0591: 3, H0551: 3, H0100: 3, H0022: 3, H0625: 3, H0633: 3, S0422: 3,L0375: 3, L0664: 3, H0682: 3, S0406: 3, L0740: 3, H0556: 2, H0241: 2,H0638: 2, S0418: 2, L0005: 2, S0442: 2, S0376: 2, H0722: 2, H0393: 2,L0717: 2, S0222: 2, H0574: 2, H0486: 2, T0040: 2, L0471: 2, S0051: 2,S0003: 2, H0252: 2, L0483: 2, T0006: 2, H0031: 2, H0032: 2, H0124: 2,H0634: 2, H0264: 2, T0042: 2, S0150: 2, H0646: 2, L0763: 2, L0637: 2,L0646: 2, L0374: 2, L0764: 2, L0768: 2, L0653: 2, L0665: 2, H0593: 2,H0435: 2, H0658: 2, H0539: 2, S0152: 2, L3832: 2, H0521: 2, S3014: 2,S0027: 2, S0028: 2, L0439: 2, L0750: 2, L0777: 2, S0436: 2, L0596: 2,L0608: 2, L0604: 2, L0594: 2, L0362: 2, S0026: 2, H0667: 2, S0452: 2,H0506: 2, L0411: 1, H0624: 1, H0170: 1, H0395: 1, H0265: 1, T0002: 1,H0220: 1, H0140: 1, H0159: 1, H0686: 1, H0583: 1, H0650: 1, S0212: 1,H0484: 1, H0664: 1, L0481: 1, S0356: 1, S0354: 1, S0358: 1, S0444: 1,S0408: 1, L3649: 1, H0580: 1, H0747: 1, H0437: 1, H0431: 1, T0104: 1,H0600: 1, H0592: 1, H0586: 1, L3817: 1, H0642: 1, H0632: 1, L2482: 1,T0114: 1, H0244: 1, H0250: 1, H0069: 1, H0156: 1, L0021: 1, H0599: 1,H0036: 1, S0346: 1, H0596: 1, H0544: 1, H0009: 1, N0006: 1, L0157: 1,H0569: 1, H0123: 1, H0242: 1, H0024: 1, H0083: 1, H0375: 1, H0328: 1,H0615: 1, H0428: 1, H0039: 1, H0622: 1, H0213: 1, H0553: 1, L0142: 1,H0628: 1, H0674: 1, H0388: 1, L0456: 1, H0708: 1, H0068: 1, H0598: 1,S0036: 1, H0135: 1, H0087: 1, H0380: 1, H0413: 1, H0056: 1, L0351: 1,T0041: 1, H0334: 1, H0561: 1, H0366: 1, S0448: 1, S0294: 1, H0130: 1,H0641: 1, H0649: 1, S0208: 1, S0002: 1, S0426: 1, L0520: 1, L0631: 1,L0769: 1, L0638: 1, L5565: 1, L0667: 1, L0772: 1, L0372: 1, L0641: 1,L0626: 1, L0794: 1, L0766: 1, L0381: 1, L0650: 1, L0651: 1, L0806: 1,L0655: 1, L0807: 1, L0657: 1, L0636: 1, L0518: 1, L0782: 1, L0382: 1,L0809: 1, L3391: 1, L2263: 1, L2259: 1, L2262: 1, L0565: 1, H0693: 1,L3827: 1, H0520: 1, S0126: 1, H0689: 1, H0670: 1, H0660: 1, H0666: 1,H0648: 1, L0602: 1, H0710: 1, H0518: 1, S0176: 1, H0134: 1, H0555: 1,H0436: 1, H0478: 1, H0631: 1, L0779: 1, L0752: 1, S0434: 1, L0605: 1,L0591: 1, L0599: 1, H0665: 1, S0196: 1, L2368: 1, H0008: 1 and H0352: 1.86 HTXJD85 840391 96 AR313: 38, AR039: 32, AR096: 17, AR185: 17, AR300:17, AR277: 16, AR299: 15, AR089: 15, AR240: 12, AR316: 10, AR219: 10,AR104: 9, AR060: 8, AR055: 8, AR218: 8, AR282: 6, AR283: 4, H0556: 2,L0638: 1, L0748: 1 and L0439: 1. 87 HUVDJ48 564853 97 AR055: 6, AR060:5, AR283: 5, AR039: 5, AR185: 4, AR096: 4, AR240: 4, AR104: 4, AR299: 4,AR300: 3, AR089: 3, AR316: 3, AR313: 3, AR282: 3, AR218: 2, AR277: 2,AR219: 2, H0393: 1, H0056: 1 and L0662: 1. 88 HWBBU75 780360 98 L0665:4, H0457: 3, H0264: 3, L0766: 3, H0521: 3, L0745: 3, H0556: 2, H0580: 2,S0352: 2, L0761: 2, L0806: 2, L0789: 2, L0748: 2, H0542: 2, H0255: 1,S0278: 1, H0581: 1, H0271: 1, H0719: 1, H0413: 1, H0494: 1, S0002: 1,S0426: 1, L0769: 1, L0774: 1, H0660: 1, L0750: 1, L0752: 1, L0753: 1 andS0424: 1. 89 HWHPB78 740778 99 H0437: 2, L0769: 2, S0028: 2, L0439: 2,S0436: 2, H0556: 1, H0125: 1, S0420: 1, H0619: 1, H0587: 1, H0635: 1,H0253: 1, H0318: 1, H0744: 1, H0052: 1, H0009: 1, H0172: 1, H0266: 1,H0135: 1, H0494: 1, L3905: 1, L0438: 1, L3828: 1, H0547: 1, H0539: 1,H0521: 1, S0037: 1, L0593: 1, H0506: 1 and H0008: 1. 90 HWLBO67 834315100 S0374: 1 91 HWLGP26 834770 101 AR313: 10, AR039: 7, AR096: 6, AR316:5, AR299: 4, AR240: 4, AR300: 3, AR277: 3, AR089: 3, AR060: 2, AR185: 2,AR282: 2, AR055: 2, AR218: 1, AR283: 1, L0766: 5, L0803: 5, L0794: 3,S0410: 2, H0551: 2, H0435: 2, L0756: 2, L0731: 2, H0585: 1, S0212: 1,S0282: 1, L0534: 1, S0442: 1, S0354: 1, H0735: 1, H0486: 1, H0014: 1,H0354: 1, H0644: 1, H0135: 1, H0647: 1, L0369: 1, L0640: 1, L0763: 1,L0770: 1, L3905: 1, L0646: 1, L0771: 1, L0804: 1, L0784: 1, L0528: 1,L0789: 1, L0790: 1, L0792: 1, L3827: 1, H0658: 1, L0749: 1, L0758: 1 andS0436: 1. 92 HILCA24 869856 102 AR316: 4, AR282: 2, AR096: 1, AR299: 1,AR039: 1, L0748: 4, H0090: 2, L0659: 2, H0521: 2, L0777: 2, L0608: 2,H0543: 2, T0002: 1, S0114: 1, L3658: 1, S0358: 1, S0408: 1, L3649: 1,T0109: 1, H0581: 1, H0622: 1, H0031: 1, H0644: 1, S0002: 1, L0657: 1,L0526: 1, L0789: 1, L0664: 1, S0380: 1, H0522: 1, L0749: 1 and L0779: 1.93 HE2CA60 888705 103 AR313: 86, AR299: 44, AR277: 42, AR283: 37, AR039:37, AR316: 36, AR218: 34, AR096: 34, AR219: 34, AR089: 32, AR185: 32,AR104: 30, AR282: 23, AR300: 23, AR055: 22, AR060: 16, AR240: 16 H0305:16, L0777: 11, L0471: 10, S0422: 9, L0766: 9, H0624: 8, H0013: 7, H0170:6, L2551: 6, H0046: 6, L0665: 6, L0598: 5, L0662: 5, L0776: 5, H0547: 5,L0758: 5, L0589: 5, H0171: 4, L0659: 4, L0666: 4, L0663: 4, L0756: 4,L0731: 4, S0358: 3, L2744: 3, L3655: 3, H0581: 3, H0457: 3, S0406: 3,L0744: 3, L0439: 3, L0752: 3, S0436: 3, H0542: 3, H0543: 3, L3643: 2,H0650: 2, H0657: 2, S0116: 2, S0442: 2, S0354: 2, L0717: 2, S0414: 2,H0486: 2, T0040: 2, H0318: 2, H0421: 2, H0428: 2, H0553: 2, H0090: 2,H0040: 2, H0063: 2, H0641: 2, L0769: 2, L0761: 2, L0764: 2, L0650: 2,L0774: 2, L0805: 2, L0657: 2, H0144: 2, L3811: 2, L3832: 2, H0521: 2,S0404: 2, L0741: 2, L0740: 2, L0747: 2, L0759: 2, S0434: 2, L0362: 2,H0685: 1, S0218: 1, L0785: 1, H0341: 1, H0255: 1, H0663: 1, H0662: 1,H0402: 1, S0376: 1, S0360: 1, S0410: 1, L3645: 1, L3646: 1, H0637: 1,H0741: 1, H0722: 1, H0735: 1, S0046: 1, H0749: 1, S0300: 1, L2758: 1,L2767: 1, L3388: 1, S0222: 1, H0592: 1, H0586: 1, H0587: 1, H0559: 1,L3653: 1, H0427: 1, L0021: 1, H0037: 1, H0746: 1, H0263: 1, H0544: 1,H0050: 1, H0057: 1, L0163: 1, H0051: 1, S0022: 1, H0328: 1, T0023: 1,H0673: 1, H0674: 1, H0591: 1, H0038: 1, H0551: 1, T0067: 1, H0100: 1,L0065: 1, S0440: 1, H0649: 1, H0529: 1, L0369: 1, L0763: 1, L0667: 1,L0630: 1, L0372: 1, L0521: 1, L0533: 1, L0775: 1, L0651: 1, L0806: 1,L0655: 1, L0661: 1, L0807: 1, L0656: 1, L0809: 1, L3872: 1, L0790: 1,L0664: 1, L2655: 1, L3663: 1, S0374: 1, L2706: 1, H0520: 1, H0435: 1,H0660: 1, H0672: 1, S0328: 1, H0539: 1, S0380: 1, H0753: 1, S0004: 1,H0696: 1, L0748: 1, L0754: 1, L0750: 1, L0753: 1, S0031: 1, H0444: 1,L0588: 1, L0605: 1, L0485: 1, H0216: 1, S0242: 1, H0423: 1, S0458: 1 andH0721: 1. 94 HPWTF23 844775 104 AR240: 84, AR089: 51, AR299: 38, AR096:37, AR039: 36, AR313: 34, AR185: 24, AR300: 22, AR316: 22, AR282: 19,AR283: 15, AR104: 14, AR055: 10, AR060: 10, AR277: 6, AR218: 2 S0474:47, H0710: 28, L0747: 18, L0659: 17, H0656: 13, H0436: 10, H0271: 9,L0751: 9, H0581: 8, H0179: 8, H0063: 8, L0731: 8, L0599: 8, H0740: 7,L0756: 7, H0650: 6, L0662: 6, H0555: 6, S0354: 5, H0728: 5, H0733: 5,H0734: 5, H0036: 5, H0590: 5, H0052: 5, L0770: 5, S0428: 5, S0374: 5,L0439: 5, L3643: 4, H0717: 4, H0747: 4, H0393: 4, S0222: 4, H0156: 4,H0309: 4, S0312: 4, S0314: 4, H0090: 4, H0591: 4, L0637: 4, L0761: 4,L0776: 4, L0783: 4, L0438: 4, L0757: 4, H0543: 4, H0716: 3, H0662: 3,H0402: 3, H0619: 3, H0392: 3, H0575: 3, H0004: 3, H0673: 3, S0364: 3,H0135: 3, H0059: 3, H0494: 3, L0667: 3, L0764: 3, L0803: 3, L0775: 3,L0666: 3, L3811: 3, H0670: 3, L0744: 3, L0750: 3, L0779: 3, L0758: 3,L0759: 3, S0436: 3, H0556: 2, L3644: 2, H0713: 2, S6024: 2, H0341: 2,S0282: 2, S0442: 2, S0376: 2, S0360: 2, H0580: 2, H0329: 2, H0749: 2,H0645: 2, H0369: 2, H0486: 2, S0280: 2, H0042: 2, H0421: 2, H0545: 2,H0457: 2, H0620: 2, H0014: 2, S0051: 2, T0010: 2, S0340: 2, H0031: 2,H0644: 2, H0383: 2, H0674: 2, H0551: 2, H0264: 2, H0488: 2, T0004: 2,S0438: 2, H0130: 2, H0647: 2, S0422: 2, L0766: 2, L0655: 2, L0517: 2,L0518: 2, L0809: 2, L0647: 2, H0547: 2, H0660: 2, S0044: 2, S0027: 2,S0028: 2, L0748: 2, L0754: 2, L0745: 2, H0445: 2, S0434: 2, L0596: 2,L0588: 2, H0506: 2, H0170: 1, S0134: 1, L0414: 1, L0785: 1, S0212: 1,H0255: 1, S0358: 1, S0444: 1, L3649: 1, H0637: 1, H0729: 1, H0730: 1,H0741: 1, H0208: 1, S6022: 1, H0550: 1, H0609: 1, H0586: 1, H0333: 1,T0060: 1, H0427: 1, L0021: 1, L0022: 1, S0010: 1, S0346: 1, L0105: 1,H0318: 1, H0597: 1, H0150: 1, L0471: 1, H0011: 1, S0362: 1, H0373: 1,S0388: 1, H0354: 1, H0099: 1, H0594: 1, H0266: 1, H0416: 1, H0188: 1,S0318: 1, S0334: 1, H0687: 1, S0338: 1, H0252: 1, H0213: 1, H0553: 1,H0111: 1, H0617: 1, H0169: 1, H0163: 1, T0067: 1, L0435: 1, L0564: 1,S0440: 1, H0509: 1, S0150: 1, H0646: 1, H0652: 1, L3815: 1, L0371: 1,L0769: 1, L0771: 1, L0649: 1, L0774: 1, L0375: 1, L0651: 1, L0378: 1,L0805: 1, L0606: 1, L0657: 1, L0384: 1, L0529: 1, L5623: 1, L0793: 1,L0664: 1, S0216: 1, H0144: 1, H0723: 1, H0593: 1, H0689: 1, H0659: 1,H0672: 1, S0328: 1, H0539: 1, H0518: 1, H0521: 1, H0696: 1, H0134: 1,L0612: 1, H0732: 1, S3012: 1, S0390: 1, S0037: 1, S3014: 1, S0032: 1,L0743: 1, L0749: 1, L0752: 1, L0755: 1, H0707: 1, L0591: 1, L0592: 1,H0653: 1, H0136: 1, S0412: 1 and H0721: 1. 95 HGCAC19 851527 105 AR219:2, AR316: 2, AR096: 1 L0794: 15, L0803: 12, L0766: 7, H0013: 6, H0090:6, L0663: 6, L0777: 6, L0731: 6, L0759: 6, H0457: 5, H0328: 5, L0493: 5,L0666: 5, L0754: 5, L0749: 5, H0543: 5, H0656: 4, S0358: 4, H0615: 4,L0665: 4, H0521: 4, L0779: 4, L0588: 4, H0305: 3, S0360: 3, H0036: 3,H0052: 3, T0042: 3, L0761: 3, L0805: 3, L0809: 3, H0144: 3, H0670: 3,H0696: 3, L0591: 3, S0134: 2, H0657: 2, L3659: 2, S0418: 2, S0442: 2,S0007: 2, S0045: 2, L0717: 2, H0600: 2, H0486: 2, H0156: 2, H0575: 2,H0590: 2, H0024: 2, S0022: 2, L0483: 2, H0135: 2, H0038: 2, H0560: 2,S0422: 2, L0457: 2, H0529: 2, L0625: 2, L0648: 2, L0776: 2, L0655: 2,L0527: 2, S0374: 2, H0520: 2, H0519: 2, H0659: 2, H0436: 2, L0748: 2,L0745: 2, L0581: 2, L0361: 2, H0542: 2, H0423: 2, S0424: 2, H0624: 1,H0171: 1, H0556: 1, T0002: 1, H0686: 1, S0342: 1, H0717: 1, T0049: 1,S0430: 1, H0650: 1, H0341: 1, H0663: 1, H0589: 1, S0356: 1, S0376: 1,S0408: 1, S0410: 1, L2336: 1, H0329: 1, S0046: 1, H0645: 1, H0369: 1,S6014: 1, H0370: 1, H0455: 1, H0438: 1, H0602: 1, H0586: 1, H0587: 1,H0574: 1, H0559: 1, S0280: 1, L0021: 1, H0318: 1, S0474: 1, H0263: 1,T0115: 1, H0545: 1, L0157: 1, H0123: 1, L0471: 1, H0015: 1, S0388: 1,S0051: 1, H0375: 1, H0271: 1, H0188: 1, S0312: 1, S0003: 1, H0688: 1,H0039: 1, H0622: 1, H0031: 1, H0644: 1, L0055: 1, H0169: 1, L0456: 1,H0163: 1, H0634: 1, H0551: 1, H0379: 1, H0488: 1, H0279: 1, L0475: 1,S0352: 1, H0652: 1, S0208: 1, L0640: 1, L0763: 1, L0500: 1, L0769: 1,L0646: 1, L0662: 1, L0649: 1, L0498: 1, L0804: 1, L0650: 1, L0784: 1,L0806: 1, L0653: 1, L0606: 1, L0515: 1, L0659: 1, L0526: 1, L0519: 1,L0788: 1, L0790: 1, L0791: 1, L0664: 1, S0053: 1, S0296: 1, H0547: 1,S0126: 1, H0682: 1, H0684: 1, H0658: 1, H0660: 1, H0672: 1, S0380: 1,H0518: 1, H0525: 1, S0044: 1, S0404: 1, S0406: 1, H0479: 1, S0432: 1,S3014: 1, L0744: 1, L0750: 1, L0780: 1, L0753: 1, L0604: 1, S0106: 1,S0242: 1, S0196: 1, S0452: 1 and H0506: 1. 96 HEQBJ01 876546 106 AR277:12, AR283: 11, AR219: 11, AR316: 10, AR089: 10, AR218: 9, AR104: 9,AR055: 8, AR282: 8, AR313: 8, AR096: 7, AR300: 7, AR185: 7, AR299: 7,AR240: 7, AR060: 5, AR039: 5 S0360: 3, H0619: 3, H0673: 2, L0438: 2,H0685: 1, S0444: 1, H0544: 1, H0266: 1, H0163: 1, L0770: 1, L0646: 1,L0768: 1, L0766: 1, L0803: 1, L0776: 1, S0152: 1, S0027: 1, L0439: 1,L0747: 1, L0777: 1, L0752: 1 and L0758: 1. 97 HBJHT01 587262 107 AR313:10, AR039: 8, AR299: 6, AR300: 5, AR185: 5, AR055: 5, AR277: 5, AR060:4, AR096: 4, AR089: 4, AR316: 4, AR240: 3, AR104: 3, AR282: 2, AR218: 2,AR283: 2 L0667: 2, S0114: 1, H0351: 1, H0318: 1, H0615: 1 and L0764:1.TZ,1/88

Table 1C summarizes additional polynucleotides encompassed by theinvention (including cDNA clones related to the sequences (Clone ID:),contig sequences (contig identifier (Contig ID:) contig nucleotidesequence identifiers (SEQ ID NO:X)), and genomic sequences (SEQ IDNO:B). The first column provides a unique clone identifier, “Clone ID:”,for a cDNA clone related to each contig sequence. The second columnprovides the sequence identifier, “SEQ ID NO:X”, for each contigsequence. The third column provides a unique contig identifier, “ContigID:” for each contig sequence. The fourth column, provides a BACidentifier “BAC ID NO:A” for the BAC clone referenced in thecorresponding row of the table. The fifth column provides the nucleotidesequence identifier, “SEQ ID NO:B” for a fragment of the BAC cloneidentified in column four of the corresponding row of the table. Thesixth column, “Exon From-To”, provides the location (i.e., nucleotideposition numbers) within the polynucleotide sequence of SEQ ID NO:Bwhich delineate certain polynucleotides of the invention that are alsoexemplary members of polynucleotide sequences that encode polypeptidesof the invention (e.g., polypeptides containing amino acid sequencesencoded by the polynucleotide sequences delineated in column six, andfragments and variants thereof). TABLE 1C cDNA SEQ ID CONTIG BAC SEQ IDEXON Clone ID NO: X ID: ID: A NO: B From-To HADMA77 14 783049 AC007944221   1-3350 HADMA77 14 783049 AC018656 222   1-3349 HADMA77 14 783049AC021874 223   1-3351 4529-4959 6110-6438 HADMA77 14 783049 AC007944 224 1-941 HADMA77 14 783049 AC018656 225  1-432 HADMA77 14 783049 AC018656226  1-941 HADMB15 15 847116 AC026666 227  1-385 406-780 HADMB15 15847116 AC026281 228  1-114 430-875  896-1262 HAGHR18 19 655435 AC009671229   1-1134 HAQAI92 20 688037 AL118502 230  1-471  571-1561 HAQAI92 20688037 AL161939 231  1-471  571-1561 HAQAI92 20 688037 AC004064 232 1-471  571-1561 HAQAI92 20 688037 AL118502 233  1-161 HAQAI92 20 688037AL118502 234  1-285 HAQAI92 20 688037 AL161939 235  1-415 HAQAI92 20688037 AL161939 236  1-285 HAQAI92 20 688037 AC004064 237  1-285 HAQAI9220 688037 AC004064 238  1-415 HBAGD86 23 838799 AC016755 239  1-411648-1993 2035-3552 3554-6713 HBAGD86 23 838799 AC016755 240  1-161696-809 2256-2753 6910-6991 7733-7857 9267-9458 10650-10734 11114-1156211678-11801 12524-12817 14494-15914 HBAGD86 23 838799 AC016755 241 1-217 HBJAB02 25 837309 AC015651 242  1-35 159-252 410-783 786-830 953-1035 1452-1553 1651-2071 2161-2264 2352-2454 2494-2758 2847-30063135-3272 3477-4138 4907-5738 5972-6059 6132-6367 6650-6834 6915-70107091-7658 7662-9457 10122-10222 11415-11534 12386-12418 13253-1358413635-13867 14881-15326 15851-16013 16529-16816 17430-17529 18140-1826918634-18734 19189-19369 20434-21105 21912-22008 HBJAB02 25 837309AC015651 243   1-2097 5308-5495 5696-5742 5890-6249 7370-7525 7850-82368359-8463 8597-8770 8919-9028 9213-9353 9517-9639 9765-9874  9944-1102311124-11219 11315-11613 11708-12241 12431-12666 12744-12802 12976-1308713374-13914 14728-15500 HCEEE79 30 560609 AC006923 244   1-1044 HCEEE7930 560609 AC006923 245  1-207 HCUCF89 32 637986 AC022554  246   1-1066HCUCF89 32 637986 AC022554 247  1-692 HCUCF89 32 637986 AC022554 248 1-643 HCWAE64 33 535893 AL157935 249   1-1319 2024-2316 2937-29843126-3281 5595-5703 5788-6574 6667-6733 6788-6880 6962-7303  8111-1186912019-12418 12420-12679 13140-13191 HCWAE64 33 535893 AL157935 250  1-1316 HCWAE64 33 535893 AL157935 251  1-309 HCWUL09 34 834722AL138741 252  1-755 HCWUL09 34 834722 AL138741 253  1-555 HDPDI72 35897277 AL139238 254  1-76 3170-3542 4724-5613 6598-6719 6954-73738256-8349 10408-11003 HDPDI72 35 897277 AL139238 255  1-279 HDPFY18 36779450 AC011875 256   1-1880 HDPFY18 36 779450 AP000848 257   1-1470HDPFY18 36 779450 AP000663 258   1-3332 HDTLM18 40 836057 AL049843 259 1-148  811-1104 2196-2793 2930-2991 3921-4047 6575-6627 8124-86598741-8843 9448-9886 10480-10524 10944-11103 13917-14450 14801-1534416392-17295 18110-18311 20445-21421 21596-22268 23857-23968 24205-2458524623-24701 25168-25575 28078-28391 28548-28707 29039-29839 30732-3149532024-32487 32521-33216 34511-34647 35166-35720 36527-36797 36993-3712538178-38288 39341-39646 41511-41570 42307-42873 42914-43014 43248-4346543589-43690 43724-43909 44170-44333 44517-45130 45497-45961 46215-4684247926-48126 49391-51961 HDTLM18 40 836057 AL049843 260   1-2071 HDTLM1840 836057 AL049843 261  1-76 2590-2720 4185-4370 8016-8395 8399-891710395-10596 10622-11056 15325-15963 18377-18495 HFIJA29 49 839206AC009954 275  1-426 HFKFX64 50 566835 AP001203 276  1-870 HFKFX64 50566835 AC025291 277  1-868 HFKFX64 50 566835 AC010798 278  1-868 HFKFX6450 566835 AP001203 279  1-750 HFKFX64 50 566835 AC025291 280  1-750HFKFX64 50 566835 AC010798 281  1-750 HGBER72 51 826710 AL157935 282  1-1319 2024-2316 2937-2984 3126-3281 5595-5703 5788-6574 6667-67336788-6880 6962-7303  8111-11869 12019-12418 12420-12679 13140-13191HGBER72 51 826710 AL157935 283   1-1316 HGBER72 51 826710 AL157935 284 1-309 HGLBG15 53 701990 AC005082 285  1-252 2150-2418 2461-26952700-3101 3368-3776 6066-6250 7105-7363 8329-9740 HGLBG15 53 701990AC073992 286  1-259 1225-2636 HGLBG15 53 701990 AC005082 287  1-546HGLBG15 53 701990 AC073992 288  1-282 HHFEC39 54 609873 AL022726 289 1-819 1137-4813 HHFEC39 54 609873 AL022726 290  1-509 HHSDI53 55 862028AP001456 291   1-1611 1654-2020 2187-2263 HHSDI53 55 862028 AL109936 292  1-1611 1654-2020 2186-2322 2673-3243 3291-3857 4276-4892 5002-53808185-8499 8705-8842 10146-10298 12526-12652 12780-14327 HHSDI53 55862028 AP001456 293  1-482 HHSDI53 55 862028 AL109936 294  1-188 HISBA3856 561711 AL137020 295   1-1169 HISBA38 56 561711 AL359254 296   1-1169HISBA38 56 561711 AL137020 297  1-702 HISBA38 56 561711 AL359254 298 1-702 HLYGE16 59 651339 AC025594 299  1-272 301-388  531-1439 1461-3200HLYGE16 59 651339 AC073849 300  1-272 301-388  531-1439 1461-3200HLYGE16 59 651339 AC025594 301  1-337 HLYGE16 59 651339 AC073849 302 1-337 HMCFH60 61 654853 AL122034 303  1-785 1072-3055 HMCFH60 61 654853AC073394 304  1-326 1898-2079 2460-2702 4498-4586 5598-7296 7560-76698015-8460 8479-8539 8918-9242 10451-10975 13375-13521 13561-1576916055-18038 HMCFH60 61 654853 AL160264 305  1-86 1101-2799 3063-31723518-3963 3982-4042 4421-4745 5954-6478 8877-9023  9063-1127111557-13540 HMCFH60 61 654853 AC073394 306  1-309 HMCFH60 61 654853AC073394 307  1-577 HMIAK10 62 562774 AP000817 308   1-1044 HMIAK10 62562774 AC024177 309   1-1047 HMIAK10 62 562774 AC011009 310   1-1047HMIBD93 63 634227 AC010913 311   1-3640 HMIBD93 63 634227 AC010913 312 1-495 593-668  670-1055 1578-1799 2445-2717 3103-3203 3284-37513841-4032 5093-5261 5443-5872 5922-6838 7633-8170 8304-8491 8968-9029 9888-10020 10479-10733 10807-10958 11020-11132 12080-12373 12464-1258513223-13381 17379-17471 18572-19447 HMWJF53 64 758158 AC021016 313 1-739 792-852 1482-1572 1670-4387 HMWJF53 64 758158 AC021016 314  1-276HNECL22 65 799541 AF216674 315   1-2837 HNECL22 65 799541 AC051642 316  1-2201 HNECL22 65 799541 AF216674 317  1-462 HNECL22 65 799541AF216674 318  1-836 HNECL22 65 799541 AC051642 319  1-462 HNGEA34 67815678 AC068137 320   1-1100 HNGKT41 69 836061 AC008581 321   1-1099HNGNO53 70 836063 AC023387 322  1-869 HNGNO53 70 836063 AL355500 323 1-851 HNHCT47 71 634691 AC027793 324  1-147 HNHCT47 71 634691 AC022107325  1-111 HNHCT47 71 634691 AP001271 326  1-610 HNHCT47 71 634691AP000487 327  1-610 HNHCT47 71 634691 AP000405 328  1-612 HNHCT47 71634691 AP001271 329  1-375 HNHCT47 71 634691 AP000487 330  1-36 434-873HNHCT47 71 634691 AP000405 331  1-375 HORBS82 73 638293 AL034419 332  1-1798 HORBS82 73 638293 AL034419 333   1-1186 HOUDE92 74 580866AC005865 334  1-173 553-629 1941-2042 2757-2891 3294-3378 4606-54985550-8125 HPCAL26 77 762822 AP000654 335   1-4150 HPEBA84 78 753957AL357372 336   1-1238 HPEBA84 78 753957 AL161799 337   1-1112 HPEBA84 78753957 AL357372 338  1-294 HPEBA84 78 753957 AL357372 339  1-140 HPEBA8478 753957 AL161799 340  1-294 HSAVA08 79 580870 AC009030 341   1-1052HSAVA08 79 580870 AC009030 342  1-431 HSHAX04 80 812178 AL049824 343 1-110 1211-1257 1740-1878 3062-3144 3668-3772 4775-5175 5220-53457001-7384 8361-8657 8747-8937 9876-9980 12753-12901 13131-1389114272-14726 14851-16619 16683-17910 18078-18367 HSHAX04 80 812178AL354888 344  1-47 1277-1376 2477-2523 3006-3144 4326-4408 4932-50366039-6439 6484-6609 8265-8648 9625-9921 10011-10216 11141-1124514019-14167 14397-15157 15538-15992 16117-17885 17949-19176 19344-19633HSHAX04 80 812178 AL354888 345  1-314 HSHAX04 80 812178 AL354888 346 1-599 HSKDR27 81 580874 AC008742 347  1-50 1016-1321 1979-22202313-3310 HSKDR27 81 580874 AC008742 348  1-495 HSQBF66 82 560726AC011878 349  1-117 4124-5072 5221-5252 HSRFD18 83 840771 AL096819 350  1-3975 HSRFD18 83 840771 AL096819 351  1-304 HT3BF49 85 838620AL355304 352  1-2144 HT3BF49 85 838620 AL355307 353   1-2144 HT3BF49 85838620 AL355304 354  1-517 HT3BF49 85 838620 AL355307 355  1-517 HTEHU5987 840385 AP001003 356   1-3207 HTEHU59 87 840385 AP001557 357   1-3206HTEHU59 87 840385 AP001156 358   1-3207 HTEHU59 87 840385 AP001003 359 1-863 HTEHU59 87 840385 AP001003 360   1-1399 1504-1948 1956-26722761-2905 3007-3135 3290-3445 3537-3653 3746-3913 4010-4131 4251-4428HTEHU59 87 840385 AP001557 361  1-863 HTEHU59 87 840385 AP001557 362  1-1395 1500-1944 1952-2667 2757-2900 3002-3130 3285-3439 HTEHU59 87840385 AP001156 363   1-1396 1502-1945 1953-2668 HTEHU59 87 840385AP001156 364  1-863 HTTEE41 95 840950 AC018921 365  1-92 318-578 837-9121091-1249 1321-1387 1862-2192 2485-2579 2708-2831 3685-4257 4547-51275811-6037 6562-7076 7541-7678 8069-8191 10100-10207 11102-1168811721-11847 12201-12335 12532-12641 12888-12991 13027-13546 13637-16146HTTEE41 95 840950 AC018921 366  1-100 HTXJD85 96 840391 AC078797 367  1-1239 HTXJD85 96 840391 AC078797 368   1-2296 2428-2719 HTXJD85 96840391 AC078797 369  1-224 HWHPB78 99 740778 AL157945 370  1-300 364-7901344-1519 1584-1709 2403-2580 4780-4968 5485-5559 5960-6128 6243-69557258-7317 9073-9145 9404-9544 10342-10513 10746-11354 12004-1257812863-13087 13224-13382 13993-14047 14319-14444 14753-14878 15465-1571316007-16123 17413-17740 17817-18127 18231-18634 18771-18881 19945-2023121024-21169 23112-23363 23692-24413 HWHPB78 99 740778 AC026283 371 1-292 353-776 1340-1506 1568-1696 2408-2534 4767-4955 5472-55465957-6293 6373-7085 7386-7445 9201-9273 9532-9672 10470-1064110873-11481 12131-12705 12990-13214 13351-13509 14119-14173 14445-1457014879-15004 15604-15844 16133-16253 17540-17867 17944-18254 18356-1875518892-19002 20066-20352 21146-21308 23235-23486 23813-24533 HWHPB78 99740778 AL157945 372  1-490 HWHPB78 99 740778 AC026283 373  1-318 HWLBO67100 834315 AC011739 374  1-517 HWLBO67 100 834315 AC011739 375  1-5863120-3867 4726-4866 6044-6395 6686-7156 11614-12016 18205-18501 HWLBO67100 834315 AC011739 376  1-202 HE2CA60 103 888705 AC005921 377  1-74 276-1076 1472-2160 3055-3389 3769-3898 4143-4288 4322-4697 4699-47726745-6851 7692-9044 9581-9743 13540-17646  1-74  276-1076 1472-21603055-3389 3769-3898 4143-4288 4322-4697 4699-4772 6745-6851 7692-90449581-9743 13540-17646 HE2CA60 103 888705 AC005921 378   1-1466   1-1466HEQBJ01 106 876546 AC009079 379  1-198 1263-1467 2271-2369 5035-58705888-6174 6249-6472  7148-11343  1-198 1263-1467 2271-2369 5035-58705888-6174 6249-6472  7148-11343 HEQBJ01 106 876546 AC009079 380  1-173916-970  1-173 916-970

Tables 1D: The polynucleotides or polypeptides, or agonists orantagonists of the present invention can be used in assays to test forone or more biological activities. If these polynucleotides andpolypeptides do exhibit activity in a particular assay, it is likelythat these molecules may be involved in the diseases associated with thebiological activity. Thus, the polynucleotides or polypeptides, oragonists or antagonists could be used to treat the associated disease.

The present invention encompasses methods of detecting, preventing,diagnosing, prognosticating, treating, and/or ameliorating a disease ordisorder. In preferred embodiments, the present invention encompasses amethod of treating an allergic and/or asthmatic disease or disordercomprising administering to a patient in which such detection,treatment, prevention, and/or amelioration is desired a protein, nucleicacid, or antibody of the invention (or fragment or variant thereof) inan amount effective to detect, prevent, diagnose, prognosticate, treat,and/or ameliorate the allergic and/or asthmatic disease or disorder.

In another embodiment, the present invention also encompasses methods ofdetecting, preventing, diagnosing, prognosticating, treating, and/orameliorating an allergic and/or asthmatic disease or disorder;comprising administering to a patient combinations of the proteins,nucleic acids, or antibodies of the invention (or fragments or variantsthereof), sharing similar indications as shown in the corresponding rowsin Column 3 of Table 1D.

Table 1D provides information related to biological activities forpolynucleotides and polypeptides of the invention (including antibodies,agonists, and/or antagonists thereof). Table 1D also providesinformation related to assays which may be used to test polynucleotidesand polypeptides of the invention (including antibodies, agonists,and/or antagonists thereof) for the corresponding biological activities.The first column (“Gene No.”) provides the gene number in theapplication for each clone identifier. The second column (“cDNA CloneID:”) provides the unique clone identifier for each clone as previouslydescribed and indicated in Table 1A through Table 1D. The third column(“AA SEQ ID NO:Y”) indicates the Sequence Listing SEQ ID Number forpolypeptide sequences encoded by the corresponding cDNA clones (also asindicated in Tables 1A, Table 1B, and Table 2). The fourth column(“Biological Activity”) indicates a biological activity corresponding tothe indicated polypeptides (or polynucleotides encoding saidpolypeptides). The fifth column (“Exemplary Activity Assay”) furtherdescribes the corresponding biological activity and also providesinformation pertaining to the various types of assays that may beperformed to test, demonstrate, or quantify the corresponding biologicalactivity.

Table 1D describes the use of, inter alia, FMAT technology for testingor demonstrating various biological activities. Fluorometric microvolumeassay technology (FMAT) is a fluorescence-based system that provides ameans to perform nonradioactive cell- and bead-based assays to detectactivation of cell signal transduction pathways. This technology wasdesigned specifically for ligand binding and immunological assays. Usingthis technology, fluorescent cells or beads at the bottom of the wellare detected as localized areas of concentrated fluorescence using adata processing system. Unbound flurophore comprising the backgroundsignal is ignored, allowing for a wide variety of homogeneous assays.FMAT technology may be used for peptide ligand binding assays,immunofluorescence, apoptosis, cytotoxicity, and bead-basedimmunocapture assays. See, Miraglia S et. al., “Homogeneous cell andbead based assays for highthroughput screening using flourometricmicrovolume assay technology,” Journal of Biomolecular Screening;4:193-204 (1999). In particular, FMAT technology may be used to test,confirm, and/or identify the ability of polypeptides (includingpolypeptide fragments and variants) to activate signal transductionpathways. For example, FMAT technology may be used to test, confirm,and/or identify the ability of polypeptides to upregulate production ofimmunomodulatory proteins (such as, for example, interleukins, GM-CSF,Rantes, and Tumor Necrosis factors, as well as other cellular regulators(e.g. insulin)).

Table 1D also describes the use of kinase assays for testing,demonstrating, or quantifying biological activity. In this regard, thephosphorylation and de-phosphorylation of specific amino acid residues(e.g. Tyrosine, Serine, Threonine) on cell-signal transduction proteinsprovides a fast, reversible means for activation and de-activation ofcellular signal transduction pathways. Moreover, cell signaltransduction via phosphorylation/de-phosphorylation is crucial to theregulation of a wide variety of cellular processes (e.g. proliferation,differentiation, migration, apoptosis, etc.). Accordingly, kinase assaysprovide a powerful tool useful for testing, confirming, and/oridentifying polypeptides (including polypeptide fragments and variants)that mediate cell signal transduction events via proteinphosphorylation. See e.g., Forrer, P., Tamaskovic R., and Jaussi, R.“Enzyme-Linked Immunosorbent Assay for Measurement of JNK, ERK, and p38Kinase Activities” Biol. Chem. 379(8-9): 1101-1110 (1998). LENGTHY TABLEREFERENCED HERE US20070015162A1-20070118-T00001 Please refer to the endof the specification for access instructions.

Table 1E: Polynucleotides encoding polypeptides of the present inventioncan be used in assays to test for one or more biological activities. Onesuch biological activity which may be tested includes the ability ofpolynucleotides and polypeptides of the invention to stimulateup-regulation or down-regulation of expression of particular genes andproteins. Hence, if polynucleotides and polypeptides of the presentinvention exhibit activity in altering particular gene and proteinexpression patterns, it is likely that these polynucleotides andpolypeptides of the present invention may be involved in, or capable ofeffecting changes in, diseases associated with the altered gene andprotein expression profiles. Hence, polynucleotides, polypeptides, orantibodies of the present invention could be used to treat saidassociated diseases.

TaqMan® assays may be performed to assess the ability of polynucleotides(and polypeptides they encode) to alter the expression pattern ofparticular “target” genes. TaqMan® reactions are performed to evaluatethe ability of a test agent to induce or repress expression of specificgenes in different cell types. TaqMan® gene expression quantificationassays (“TaqMan® assays”) are well known to, and routinely performed by,those of ordinary skill in the art. TaqMan® assays are performed in atwo step reverse transcription/polymerase chain reaction (RT-PCR). Inthe first (RT) step, cDNA is reverse transcribed from total RNA samplesusing random hexamer primers. In the second (PCR) step, PCR products aresynthesized from the cDNA using gene specific primers.

To quantify gene expression the Taqman® PCR reaction exploits the 5′nuclease activity of AmpliTaq Gold® DNA Polymerase to cleave a Taqman®probe (distinct from the primers) during PCR. The Taqman® probe containsa reporter dye at the 5′-end of the probe and a quencher dye at the 3′end of the probe. When the probe is intact, the proximity of thereporter dye to the quencher dye results in suppression of the reporterfluorescence. During PCR, if the target of interest is present, theprobe specifically anneals between the forward and reverse primer sites.AmpliTaq Fold DNA Polymerase then cleaves the probe between the reporterand quencher when the probe hybridizes to the target, resulting inincreased fluorescence of the reporter (see FIG. 2). Accumulation of PCRproducts is detected directly by monitoring the increase in fluorescenceof the reporter dye.

After the probe fragments are displaced from the target, polymerizationof the strand continues. The 3′-end of the probe is blocked to preventextension of the probe during PCR. This process occurs in every cycleand does not interfere with the exponential accumulation of product. Theincrease in fluorescence signal is detected only if the target sequenceis complementary to the probe and is amplified during PCR. Because ofthese requirements, any nonspecific amplification is not detected.

For test sample preparation, vector controls or constructs containingthe coding sequence for the gene of interest are transfected into cells,such as for example 293T cells, and supernatants collected after 48hours. For cell treatment and RNA isolation, multiple primary humancells or human cell lines are used; such cells may include but are notlimited to, Normal Human Dermal Fibroblasts, Aortic Smooth Muscle, HumanUmbilical Vein Endothelial Cells, HepG2, Daudi, Jurkat, U937, Caco, andTHP-1 cell lines. Cells are plated in growth media and growth isarrested by culturing without media change for 3 days, or by switchingcells to low serum media and incubating overnight. Cells are treated for1, 6, or 24 hours with either vector control supernatant or samplesupernatant (or purified/partially purified protein preparations inbuffer). Total RNA is isolated; for example, by using Trizol extractionor by using the Ambion RNAqueous™-4PCR RNA isolation system. Expressionlevels of multiple genes are analyzed using TAQMAN, and expression inthe test sample is compared to control vector samples to identify genesinduced or repressed. Each of the above described techniques are wellknown to, and routinely performed by, those of ordinary skill in theart.

Table 1E indicates particular disease classes and preferred indicationsfor which polynucleotides, polypeptides, or antibodies of the presentinvention may be used in detecting, diagnosing, preventing, treatingand/or ameliorating said diseases and disorders based on “target” geneexpression patterns which may be up- or down-regulated bypolynucleotides (and the encoded polypeptides) corresponding to eachindicated cDNA Clone ID (shown in Table 1E, Column 2).

Thus, in preferred embodiments, the present invention encompasses amethod of detecting, diagnosing, preventing, treating, and/orameliorating a disease or disorder listed in the “Disease Class” and/or“Preferred Indication” columns of Table 1E; comprising administering toa patient in which such detection, diagnosis, prevention, or treatmentis desired a protein, nucleic acid, or antibody of the invention (orfragment or variant thereof) in an amount effective to detect, diagnose,prevent, treat, or ameliorate the disease or disorder. The first andsecond columns of Table 1D show the “Gene No.” and “cDNA Clone ID No.”,respectively, indicating certain nucleic acids and proteins (orantibodies against the same) of the invention (including polynucleotide,polypeptide, and antibody fragments or variants thereof) that may beused in detecting, diagnosing, preventing, treating, or ameliorating thedisease(s) or disorder(s) indicated in the corresponding row in the“Disease Class” or “Preferred Indication” Columns of Table 1E.

In another embodiment, the present invention also encompasses methods ofdetecting, diagnosing, preventing, treating, or ameliorating a diseaseor disorder listed in the “Disease Class” or “Preferred Indication”Columns of Table 1E; comprising administering to a patient combinationsof the proteins, nucleic acids, or antibodies of the invention (orfragments or variants thereof), sharing similar indications as shown inthe corresponding rows in the “Disease Class” or “Preferred Indication”Columns of Table 1E.

The “Disease Class” Column of Table 1E provides a categorizeddescriptive heading for diseases, disorders, and/or conditions (morefully described below) that may be detected, diagnosed, prevented,treated, or ameliorated by a protein, nucleic acid, or antibody of theinvention (or fragment or variant thereof).

The “Preferred Indication” Column of Table 1E describes diseases,disorders, and/or conditions that may be detected, diagnosed, prevented,treated, or ameliorated by a protein, nucleic acid, or antibody of theinvention (or fragment or variant thereof).

The “Cell Line” and “Exemplary Targets” Columns of Table 1E indicateparticular cell lines and target genes, respectively, which may showaltered gene expression patterns (i.e., up- or down-regulation of theindicated target gene) in Taqman assays, performed as described above,utilizing polynucleotides of the cDNA Clone ID shown in thecorresponding row. Alteration of expression patterns of the indicated“Exemplary Target” genes is correlated with a particular “Disease Class”and/or “Preferred Indication” as shown in the corresponding row underthe respective column headings.

The “Exemplary Accessions” Column indicates GenBank Accessions(available online through the National Center for BiotechnologyInformation (NCBI) at http://www.ncbi.nlm.nih.gov/) which correspond tothe “Exemplary Targets” shown in the adjacent row.

The recitation of “Cancer” in the “Disease Class” Column indicates thatthe corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof) may be used forexample, to detect, diagnose, prevent, treat, and/or ameliorateneoplastic diseases and/or disorders (e.g., leukemias, cancers, etc., asdescribed below under “Hyperproliferative Disorders”).

The recitation of “Immune” in the “Disease Class” column indicates thatthe corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, prevent, treat, and/or ameliorate diseasesand/or disorders relating to neoplastic diseases (e.g., as describedbelow under “Hyperproliferative Disorders”), blood disorders (e.g., asdescribed below under “Immune Activity” “Cardiovascular Disorders”and/or “Blood-Related Disorders”), and infections (e.g., as describedbelow under “Infectious Disease”).

The recitation of “Angiogenesis” in the “Disease Class” column indicatesthat the corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, treat, prevent, and/or ameliorate diseasesand/or disorders relating to neoplastic diseases (e.g., as describedbelow under “Hyperproliferative Disorders”), diseases and/or disordersof the cardiovascular system (e.g., as described below under“Cardiovascular Disorders”), diseases and/or disorders involvingcellular and genetic abnormalities (e.g., as described below under“Diseases at the Cellular Level”), diseases and/or disorders involvingangiogenesis (e.g., as described below under “Anti-AngiogenesisActivity”), to promote or inhibit cell or tissue regeneration (e.g., asdescribed below under “Regeneration”), or to promote wound healing(e.g., as described below under “Wound Healing and Epithelial CellProliferation”).

The recitation of “Diabetes” in the “Disease Class” column indicatesthat the corresponding nucleic acid and protein, or antibody against thesame, of the invention (or fragment or variant thereof), may be used forexample, to detect, diagnose, treat, prevent, and/or ameliorate diabetes(including diabetes mellitus types I and II), as well as diseases and/ordisorders associated with, or consequential to, diabetes (e.g. asdescribed below under “Endocrine Disorders,” “Renal Disorders,” and“Gastrointestinal Disorders”). TABLE 1E Gene cDNA Disease ExemplaryExemplary No. Clone ID Class Preferred Indications: Cell Line: TargetsAccessions 76 HTEEW69 Immune Highly preferred indications includeimmunological disorders AOSMC CCR7 gb|X84702|HSDNABLR2 such as describedherein under the heading “Immune CXCR3 gb|Z79783|HSCKRL2 Activity”and/or “Blood-Related Disorders” Rag2 gb|AY011962|AY011962 (particularlyincluding, but not limited to, immune VLA4 gb|X16983|HSINTAL4 disordersinvolving muscle tissues and the cardiovascular system (e.g. heart,lungs, circulatory system)). Highly preferred embodiments of theinvention include methods of preventing, detecting, diagnosing, treatingand/or ameliorating disorders of the immune system (particularlyincluding, but not limited to, immune disorders involving muscle tissueor the cardiovascular system). (AOSMC cells are human aortic smoothmuscle cells). 76 HTEEW69 Immune Highly preferred indications includeimmunological disorders Caco-2 TNF gb|AJ270944|HSA27094 such asdescribed herein under the heading “Immune Activity” and/or“Blood-Related Disorders” (particularly including, but not limited to,immune disorders involving the cells of the gastrointestinal tract).Highly preferred embodiments of the invention include methods ofpreventing, detecting, diagnosing, treating and/or amelioratingdisorders of the immune system (particularly including, but not limitedto, immune disorders involving cells of the gastrointestinal tract).(The Caco-2 cell line is a human colorectal adenocarcinoma cell lineavailable through the ATCC as cell line number HTB-37). 76 HTEEW69Immune Highly preferred indications include immunological disordersDaudi GATA3 gb|X55037|HSGATA3 such as described herein under the heading“Immune ICAM gb|X06990|HSICAM1 Activity” and/or “Blood-RelatedDisorders” TNF gb|AJ270944|HSA27094 (particularly including, but notlimited to, immune disorders involving the B-cells). Highly preferredembodiments of the invention include methods of preventing, detecting,diagnosing, treating and/or ameliorating disorders of the immune system(particularly including, but not limited to, immune disorders involvingB-cells). (The Daudi cell line is a human B lymphoblast cell lineavailable through the ATCC as cell line number CCL-213). 76 HTEEW69Immune Highly preferred indications include immunological disordersHEK293 TNF gb|AJ270944|HSA27094 such as described herein under theheading “Immune Activity” and/or “Blood-Related Disorders” (particularlyincluding, but not limited to, immune disorders involving epithelialcells or the renal system). Highly preferred embodiments of theinvention include methods of preventing, detecting, diagnosing, treatingand/or ameliorating disorders of the immune system (particularlyincluding, but not limited to, immune disorders involving epithelialcells or the renal system). (The 293 cell line is a human embryonalkidney epithelial cell line available through the ATCC as cell linenumber CRL-1573). 76 HTEEW69 Immune Highly preferred indications includeimmunological disorders Liver ICAM gb|X06990|HSICAM1 such as describedherein under the heading “Immune Activity” and/or “Blood-RelatedDisorders” (particularly including, but not limited to, immune disordersinvolving cells of the hepatic system). Highly preferred embodiments ofthe invention include methods of preventing, detecting, diagnosing,treating and/or ameliorating disorders of the immune system(particularly including, but not limited to, immune disorders involvingcells of the hepatic system). 76 HTEEW69 Immune Highly preferredindications include immunological disorders NHDF CIS3gb|AB006967|AB006967 such as described herein under the heading “ImmuneActivity” TNF gb|AJ270944|HSA27094 and/or “Blood-Related Disorders”(particularly including, but not limited to, immune disorders involvingthe skin). Highly preferred embodiments of the invention include methodsof preventing, detecting, diagnosing, treating and/or amelioratingdisorders of the immune system (particularly including, but not limitedto, immune disorders involving the skin). (NHDF cells are normal humandermal fibroblasts). 76 HTEEW69 Immune Highly preferred indicationsinclude immunological disorders SK-N-MC TNF gb|AJ270944|HSA27094 such asdescribed herein under the heading “Immune Activity” neuroblastoma VCAMgb|A30922|A30922 and/or “Blood-Related Disorders” (particularlyincluding, but not limited to, immune disorders involving the centralnervous system). Highly preferred embodiments of the invention includemethods of preventing, detecting, diagnosing, treating and/orameliorating disorders of the immune system (particularly including, butnot limited to, immune disorders involving the central nervous sytem).(The SK-N-MC neuroblastoma cell line is a cell line derived from humanbrain tissue and is available through the ATCC as cell line numberHTB-10). 76 HTEEW69 Immune Highly preferred indications includeimmunological disorders THP1 CD25 gb|X03137|HSIL2RG7 such as describedherein under the heading “Immune Activity” CD40 gb|AJ300189|HSA30018and/or “Blood-Related Disorders” (particularly including, GATA3gb|X55037|HSGATA3 but not limited to, immune disorders involvingmonocytes). LTBR gb|AK027080|AK027080 Highly preferred embodiments ofthe invention include Rag1 gb|M29474|HUMRAG1 methods of preventing,detecting, diagnosing, treating and/or ameliorating disorders of theimmune system (particularly including, but not limited to, immunedisorders involving monocytes). (The THP1 cell line is a human monocytecell line available through the ATCC as cell line number TIB-202). 76HTEEW69 Immune Highly preferred indications include immunologicaldisorders U937 IL1B gb|X02532|HSIL1BR such as described herein under theheading “Immune Activity” TNF gb|AJ270944|HSA27094 and/or “Blood-RelatedDisorders” (particularly including, but not limited to, immune disordersinvolving monocytes). Highly preferred embodiments of the inventioninclude methods of preventing, detecting, diagnosing, treating and/orameliorating disorders of the immune system (particularly including, butnot limited to, immune disorders involving monocytes). (The U937 cellline is a human monocyte cell line available through the ATCC as cellline number CRL-1593.2).

Table 2 further characterizes certain encoded polypeptides of theinvention, by providing the results of comparisons to protein andprotein family databases. The first column provides a unique cloneidentifier, “Clone ID NO:”, corresponding to a cDNA clone disclosed inTable 1A and/or Table 1B. The second column provides the unique contigidentifier, “Contig ID:” which allows correlation with the informationin Table 1B. The third column provides the sequence identifier, “SEQ IDNO:”, for the contig polynucleotide sequences. The fourth columnprovides the analysis method by which the homology/identity disclosed inthe Table was determined. The fifth column provides a description of thePFAM/NR hit identified by each analysis. Column six provides theaccession number of the PFAM/NR hit disclosed in the fifth column.Column seven, score/percent identity, provides a quality score or thepercent identity, of the hit disclosed in column five. Comparisons weremade between polypeptides encoded by polynucleotides of the inventionand a non-redundant protein database (herein referred to as “NR”), or adatabase of protein families (herein referred to as “PFAM”), asdescribed below.

The NR database, which comprises the NBRF PIR database, the NCBI GenPeptdatabase, and the SIB SwissProt and TrEMBL databases, was madenon-redundant using the computer program nrdb2 (Warren Gish, WashingtonUniversity in Saint Louis). Each of the polynucleotides shown in Table1B, column 3 (e.g., SEQ ID NO:X or the ‘Query’ sequence) was used tosearch against the NR database. The computer program BLASTX was used tocompare a 6-frame translation of the Query sequence to the NR database(for information about the BLASTX algorithm please see Altshul et al.,J. Mol. Biol. 215:403-410 (1990), and Gish and States, Nat. Genet.3:266-272 (1993). A description of the sequence that is most similar tothe Query sequence (the highest scoring ‘Subject’) is shown in columnfive of Table 2 and the database accession number for that sequence isprovided in column six. The highest scoring ‘Subject’ is reported inTable 2 if (a) the estimated probability that the match occurred bychance alone is less than 1.0e-07, and (b) the match was not to a knownrepetitive element. BLASTX returns alignments of short polypeptidesegments of the Query and Subject sequences that share a high degree ofsimilarity; these segments are known as High-Scoring Segment Pairs orHSPs. Table 2 reports the degree of similarity between the Query and theSubject for each HSP as a percent identity in Column 7. The percentidentity is determined by dividing the number of exact matches betweenthe two aligned sequences in the HSP, dividing by the number of Queryamino acids in the HSP and multiplying by 100. The polynucleotides ofSEQ ID NO:X which encode the polypeptide sequence that generates an HSPare delineated by columns 8 and 9 of Table 2.

The PFAM database, PFAM version 2.1, (Sonnhammer, Nucl. Acids Res.,26:320-322, 1998)) consists of a series of multiple sequence alignments;one alignment for each protein family. Each multiple sequence alignmentis converted into a probability model called a Hidden Markov Model, orHMM, that represents the position-specific variation among the sequencesthat make up the multiple sequence alignment (see, e.g., Durbin, et al.,Biological sequence analysis: probabilistic models of proteins andnucleic acids, Cambridge University Press, 1998 for the theory of HMMs).The program HMMER version 1.8 (Sean Eddy, Washington University in SaintLouis) was used to compare the predicted protein sequence for each Querysequence (SEQ ID NO:Y in Table 1B) to each of the HMMs derived from PFAMversion 2.1. A HMM derived from PFAM version 2.1 was said to be asignificant match to a polypeptide of the invention if the scorereturned by HMMER 1.8 was greater than 0.8 times the HMMER 1.8 scoreobtained with the most distantly related known member of that proteinfamily. The description of the PFAM family which shares a significantmatch with a polypeptide of the invention is listed in column 5 of Table2, and the database accession number of the PFAM hit is provided incolumn 6. Column 7 provides the score returned by HMMER version 1.8 forthe alignment. Columns 8 and 9 delineate the polynucleotides of SEQ IDNO:X which encode the polypeptide sequence which show a significantmatch to a PFAM protein family.

As mentioned, columns 8 and 9 in Table 2, “NT From” and “NT To”,delineate the polynucleotides of “SEQ ID NO:X” that encode a polypeptidehaving a significant match to the PFAM/NR database as disclosed in thefifth column. In one embodiment, the invention provides a proteincomprising, or alternatively consisting of, a polypeptide encoded by thepolynucleotides of SEQ ID NO:X delineated in columns 8 and 9 of Table 2.Also provided are polynucleotides encoding such proteins, and thecomplementary strand thereto.

The nucleotide sequence SEQ ID NO:X and the translated SEQ ID NO:Y aresufficiently accurate and otherwise suitable for a variety of uses wellknown in the art and described further below. For instance, thenucleotide sequences of SEQ ID NO:X are useful for designing nucleicacid hybridization probes that will detect nucleic acid sequencescontained in SEQ ID NO:X or the cDNA contained in ATCC Deposit No: Z.These probes will also hybridize to nucleic acid molecules in biologicalsamples, thereby enabling immediate applications in chromosome mapping,linkage analysis, tissue identification and/or typing, and a variety offorensic and diagnostic methods of the invention. Similarly,polypeptides identified from SEQ ID NO:Y may be used to generateantibodies which bind specifically to these polypeptides, or fragmentsthereof, and/or to the polypeptides encoded by the cDNA clonesidentified in, for example, Table 1A and/or 1B.

Nevertheless, DNA sequences generated by sequencing reactions cancontain sequencing errors. The errors exist as misidentifiednucleotides, or as insertions or deletions of nucleotides in thegenerated DNA sequence. The erroneously inserted or deleted nucleotidescause frame shifts in the reading frames of the predicted amino acidsequence. In these cases, the predicted amino acid sequence divergesfrom the actual amino acid sequence, even though the generated DNAsequence may be greater than 99.9% identical to the actual DNA sequence(for example, one base insertion or deletion in an open reading frame ofover 1000 bases).

Accordingly, for those applications requiring precision in thenucleotide sequence or the amino acid sequence, the present inventionprovides not only the generated nucleotide sequence identified as SEQ IDNO:X, and a predicted translated amino acid sequence identified as SEQID NO:Y, but also a sample of plasmid DNA containing cDNA ATCC DepositNo: Z (e.g., as set forth in columns 2 and 3 of Table 1A and/or as setforth, for example, in Table 1B, 6, and 7). The nucleotide sequence ofeach deposited clone can readily be determined by sequencing thedeposited clone in accordance with known methods. Further, techniquesknown in the art can be used to verify the nucleotide sequences of SEQID NO:X. The predicted amino acid sequence can then be verified fromsuch deposits. Moreover, the amino acid sequence of the protein encodedby a particular clone can also be directly determined by peptidesequencing or by expressing the protein in a suitable host cellcontaining the deposited human cDNA, collecting the protein, anddetermining its sequence. TABLE 2 SEQ PFam/NR Score/ cDNA Contig IDAnalysis Accession Percent NT NT Clone ID ID: NO: X Method PFam/NRDescription Number Identity From To HADMB15 847116 15 WUblastx.64(Q9BVH1) SIMILAR TO DLXIN-1. Q9BVH1 100% 8 109 HAGCC87 638587 17WUblastx.64 (Q9BGW3) HYPOTHETICAL 13.5 KDA PROTEIN. Q9BGW3 65% 992 110536% 54 116 57% 801 980 HAGHN57 773286 18 WUblastx.64 (O60416) WUGSC:H_RG276O03.2 PROTEIN. O60416 98% 65 1444 HAQCE11 633730 22 WUblastx.64(Q24333) ELASTIN LIKE PROTEIN (FRAGMENT). Q24333 95% 61 132 HBAGD86838799 23 WUblastx.64 (Q14287) HYPOTHETICAL PROTEIN Q14287 37% 801 559(FRAGMENT). HBGBC29 691473 24 WUblastx.64 (O60513)BETA-1,4-GALACTOSYLTRANSFERASE B4G4_HUMAN 61% 1 78 4 (EC 2.4.1.—) (BET98% 65 1021 HBJAB02 837309 25 WUblastx.64 (Q9NXT6) CDNA FLJ20062 FIS,CLONE COL01508. Q9NXT6 70% 2 1210 HBMUH74 866160 26 WUblastx.64 (Q9NVW8)CDNA FLJ10462 FIS, CLONE Q9NVW8 100% 11 427 NT2RP1001494, WEAKLY SIMILARTO MAL HBNAX40 834801 27 WUblastx.64 (Q9H2K2) TANKYRASE-LIKE PROTEINQ9H2K2 100% 1 201 (TANKYRASE 2). 100% 221 481 HBXCX15 637542 28WUblastx.64 (Q9GMX5) HYPOTHETICAL 12.9 KDA PROTEIN. Q9GMX5 41% 726 82752% 578 730 HCDBO32 831942 29 WUblastx.64 (AAH17472) Hypothetical 21.3kDa protein. AAH17472 69% 643 801 100% 239 583 HCEFZ82 831745 31WUblastx.64 (Q9BV23) SIMILAR TO LIPASE PROTEIN. Q9BV23 95% 594 782 100%17 604 HCUCF89 637986 32 WUblastx.64 (Q9P147) PRO2822. Q9P147 100% 421398 82% 494 426 HDPD172 897277 35 WUblastx.64 adult-specific brushborder protein - rabbit pir|C45665|C45665 64% 180 230 83% 11 100 HDPIE44899328 37 WUblastx.64 (Q9D666) 4632417G13RIK PROTEIN. Q9D666 62% 1022453 HDPIU94 813352 38 WUblastx.64 (Q9BVF7) SIMILAR TO HYPOTHETICALQ9BVF7 99% 63 1703 PROTEIN FLJ10422. HE6CS65 762960 41 WUblastx.64(Q9H7C6) CDNA: FLJ21047 FIS, CLONE CAS00253. Q9H7C6 98% 938 1378 HE8BQ49589443 42 WUblastx.64 hypothetical protein - human transposon MER37pir|S72482|S72482 75% 343 474 64% 105 248 HE9CY05 834826 43 WUblastx.64(Q9CX63) 6030468B19RIK PROTEIN. Q9CX63 48% 434 742 57% 55 426 HEAAW94847340 44 WUblastx.64 (Q9UEV9) ACTIN-BINDING PROTEIN HOMOLOG Q9UEV9 94%285 890 ABP-278. HEBFR46 847064 45 WUblastx.64 (Q9NX85) CDNA FLJ20378FIS, CLONE KAIA0536. Q9NX85 80% 1111 1022 84% 1265 1110 HFEBO17 85221848 WUblastx.64 (BAB55130) CDNA FLJ14559 fis, clone BAB55130 100% 523 624NT2RM2001998. 91% 606 809 HFIJA29 839206 49 WUblastx.64 (Q9UHT1) PRO1902PROTEIN. Q9UHT1 46% 889 806 59% 1026 880 HGBER72 826710 51 WUblastx.64(Q9H387) PRO2550. Q9H387 71% 1061 969 78% 1104 1063 77% 1237 1103HHSDI53 862028 55 WUblastx.64 (Q9H387) PRO2550. Q9H387 70% 1108 935 71%1241 1107 75% 1276 1241 HISBA38 561711 56 WUblastx.64 (Q9H387) PRO2550.Q9H387 53% 919 836 53% 996 907 51% 842 687 HKABU43 838573 58 WUblastx.64(AAH03633) Translocase of outer mitochondrial AAH03633 100% 33 62 membr92% 26 1597 HLYGY91 658703 60 WUblastx.64 (Q9H8N0) CDNA FLJ13386 FIS,CLONE Q9H8N0 94% 221 391 PLACE1001104, WEAKLY SIMILAR TO MYO HMWJF53758158 64 WUblastx.64 (Q9GZU7) NUCLEAR LIM INTERACTOR- Q9GZU7 91% 3 170INTERACTING FACTOR. 100% 154 720 HNECL22 799541 65 WUblastx.64 (Q9P0J2)MITOCHONDRIAL SOLUTE CARRIER. Q9P0J2 94% 1771 2331 HNFAC50 815676 66WUblastx.64 (Q9H286) SEROLOGICALLY DEFINED BREAST Q9H286 100% 425 282CANCER ANTIGEN NY-BR-20 (FRAGME HNHCT47 634691 71 WUblastx.64 (Q9H728)CDNA: FLJ21463 FIS, CLONE COL04765. Q9H728 46% 434 396 56% 621 448HNHKI74 777856 72 WUblastx.64 (Q9BGX7) HYPOTHETICAL 13.0 KDA PROTEIN.Q9BGX7 64% 350 541 HOUDE92 580866 74 WUblastx.64 (Q9HBT2) HYPOTHETICAL17.2 KDA PROTEIN. Q9HBT2 96% 21 245 HOUFS04 771564 75 WUblastx.64(Q9VN45) CG12001 PROTEIN. Q9VN45 32% 1362 1982 39% 915 1106 26% 141 380HOUHI25 888279 76 WUblastx.64 (O95003) WUGSC: H_DJ0593H12.2 PROTEIN.O95003 94% 73 783 HPCAL26 762822 77 WUblastx.64 (O95084) SERINE PROTEASE(HYPOTHETICAL O95084 98% 398 640 43.0 KDA PROTEIN) (PROTEASE, S 76% 135497 HSAVA08 580870 79 WUblastx.64 (Q9BGW3) HYPOTHETICAL 13.5 KDAPROTEIN. Q9BGW3 57% 949 896 42% 926 792 63% 796 764 66% 1059 934 HSHAX04812178 80 WUblastx.64 peptidylprolyl isomerase (EC 5.2.1.8) A - humanpir|S66681|S66681 96% 14 916 HSRFD18 840771 83 WUblastx.64 (Q9H941) CDNAFLJ13033 FIS, CLONE Q9H941 100% 437 559 NT2RP3001126. HSWBE76 751308 84WUblastx.64 (Q9NW15) CDNA FLJ10375 FIS, CLONE Q9NW15 100% 126 266NT2RM2001950. HTEEW69 764835 86 WUblastx.64 (Q9Z1H7) GSG1. Q9Z1H7 65%850 927 85% 707 769 50% 519 662 66% 908 943 65% 182 544 HTEMQ17 84038788 WUblastx.64 (Q9D4P8) 4930579G24RIK PROTEIN. Q9D4P8 90% 120 359HTGBK95 834490 89 WUblastx.64 (Q9GMX5) HYPOTHETICAL 12.9 KDA PROTEIN.Q9GMX5 66% 126 55 70% 235 116 HTLEM16 779133 90 WUblastx.64 (O95638) WWDOMAIN BINDING PROTEIN-2. O95638 92% 50 541 28% 987 1142 48% 617 841HTNBK13 831967 91 WUblastx.64 (Q9Y3M2) HYPOTHETICAL 14.5 KDA PROTEIN.Q9Y3M2 81% 123 500 HTPDU17 840596 93 WUblastx.64 (Q9NW00) CDNA FLJ10404FIS, CLONE Q9NW00 80% 553 1308 NT2RM4000486. 64% 1143 1664 HTTDN24766485 94 WUblastx.64 (Q9BVN5) HYPOTHETICAL 120.6 KDA PROTEIN. Q9BVN595% 628 1725 32% 937 1593 95% 3 629 32% 1114 1596 HTTEE41 840950 95WUblastx.64 (P78371) T-COMPLEX PROTEIN 1, BETA TCPB_HUMAN 98% 92 1696SUBUNIT (TCP-1-BETA) (CC HTXJD85 840391 96 WUblastx.64 (Q9HAD8) CDNAFLJ11786 FIS, CLONE Q9HAD8 52% 1093 818 HEMBA1006036. HUVDJ48 564853 97WUblastx.64 SHORT ISOFORM OF Q9P2N4 sp_vs|Q9P2N4- 92% 1510 166801|Q9P2N4 HWBBU75 780360 98 WUblastx.64 (Q9R189) MUNC13-4 PROTEIN.Q9R189 82% 1454 2362 73% 913 1434 80% 194 952 62% 2229 2729 31% 15861711 34% 401 532 HWHPB78 740778 99 WUblastx.64 (Q9BUK4) SIMILAR TOHYPOTHETICAL Q9BUK4 61% 360 614 PROTEIN FLJ10709. 100% 677 817 HWLGP26834770 101 WUblastx.64 (Q9NP87) DNA POLYMERASE MU. Q9NP87 93% 674 760100% 269 298 94% 295 465 87% 432 623 100% 3 254 HILCA24 869856 102WUblastx.64 (Q9NUU6) CDNA FLJ11127 FIS, CLONE Q9NUU6 95% 104 1171PLACE1006225. HILCA24 782450 108 WUblastx.64 (Q9NUU6) CDNA FLJ11127 FIS,CLONE Q9NUU6 73% 103 159 PLACE1006225. 100% 168 1169 HE2CA60 888705 103WUblastx.64 (O95232) OKADAIC ACID-INDUCIBLE OA48_HUMAN 98% 1098 1265PHOSPHOPROTEIN OA48-18. HPWTF23 844775 104 HMMER PFAM: TSC-22/dip/bunfamily PF01166 146.4 442 621 2.1.1 WUblastx.64 (Q99576)GLUCOCORTICOID-INDUCED LEUCINE GILZ_HUMAN 94% 271 672 ZIPPER PROTEIN(DEL HPWTF23 843700 110 HMMER PFAM: TSC-22/dip/bun family PF01166 146.4442 621 2.1.1 WUblastx.64 (Q99576) GLUCOCORTICOID-INDUCED LEUCINEGILZ_HUMAN 94% 271 672 ZIPPER PROTEIN (DEL HEQBJ01 876546 106WUblastx.64 (Q9LVQ7) ZINC FINGER PROTEIN. Q9LVQ7 34% 424 849 HEQBJ01861786 113 WUblastx.64 (Q9LVQ7) ZINC FINGER PROTEIN. Q9LVQ7 34% 424 849RACE Protocol for Recovery of Full-Length Genes

Partial cDNA clones can be made full-length by utilizing the rapidamplification of cDNA ends (RACE) procedure described in Frohman, M. A.,et al., Proc. Nat'l. Acad. Sci. USA, 85:8998-9002 (1988). A cDNA clonemissing either the 5′ or 3′ end can be reconstructed to include theabsent base pairs extending to the translational start or stop codon,respectively. In some cases, cDNAs are missing the start codon oftranslation, therefor. The following briefly describes a modification ofthis original 5′ RACE procedure. Poly A+ or total RNA is reversetranscribed with Superscript II (Gibco/BRL) and an antisense orcomplementary primer specific to the cDNA sequence. The primer isremoved from the reaction with a Microcon Concentrator (Amicon). Thefirst-strand cDNA is then tailed with dATP and terminal deoxynucleotidetransferase (Gibco/BRL). Thus, an anchor sequence is produced which isneeded for PCR amplification. The second strand is synthesized from thedA-tail in PCR buffer, Taq DNA polymerase (Perkin-Elmer Cetus), anoligo-dT primer containing three adjacent restriction sites (XhoI, SalIand ClaI) at the 5′ end and a primer containing just these restrictionsites. This double-stranded cDNA is PCR amplified for 40 cycles with thesame primers as well as a nested cDNA-specific antisense primer. The PCRproducts are size-separated on an ethidium bromide-agarose gel and theregion of gel containing cDNA products the predicted size of missingprotein-coding DNA is removed. cDNA is purified from the agarose withthe Magic PCR Prep kit (Promega), restriction digested with XhoI orSalI, and ligated to a plasmid such as pBluescript SKII (Stratagene) atXhoI and EcoRV sites. This DNA is transformed into bacteria and theplasmid clones sequenced to identify the correct protein-coding inserts.Correct 5′ ends are confirmed by comparing this sequence with theputatively identified homologue and overlap with the partial cDNA clone.Similar methods known in the art and/or commercial kits are used toamplify and recover 3′ ends.

Several quality-controlled kits are commercially available for purchase.Similar reagents and methods to those above are supplied in kit formfrom Gibco/BRL for both 5′ and 3′ RACE for recovery of full-lengthgenes. A second kit is available from Clontech, which is a modificationof a related technique, SLIC (single-stranded ligation tosingle-stranded cDNA), developed by Dumas et al., Nucleic Acids Res.,19:5227-32 (1991). The major differences in procedure are that the RNAis alkaline hydrolyzed after reverse transcription and RNA ligase isused to join a restriction site-containing anchor primer to thefirst-strand cDNA. This obviates the necessity for the dA-tailingreaction that results in a polyT stretch that is difficult to sequencepast.

An alternative to generating 5′ or 3′ cDNA from RNA is to use cDNAlibrary double-stranded DNA. An asymmetric PCR-amplified antisense cDNAstrand is synthesized with an antisense cDNA-specific primer and aplasmid-anchored primer. These primers are removed and a symmetric PCRreaction is performed with a nested cDNA-specific antisense primer andthe plasmid-anchored primer.

RNA Ligase Protocol for Generating the 5′ or 3′End Sequences to ObtainFull Length Genes

Once a gene of interest is identified, several methods are available forthe identification of the 5′ or 3′ portions of the gene that may not bepresent in the original cDNA plasmid. These methods include, but are notlimited to, filter probing, clone enrichment using specific probes andprotocols similar and identical to 5′ and 3′ RACE. While the full-lengthgene may be present in the library and can be identified by probing, auseful method for generating the 5′ or 3′ end is to use the existingsequence information from the original cDNA to generate the missinginformation. A method similar to 5′ RACE is available for generating themissing 5′ end of a desired full-length gene. (This method was publishedby Fromont-Racine et al., Nucleic Acids Res., 21(7):1683-1684 (1993)).Briefly, a specific RNA oligonucleotide is ligated to the 5′ ends of apopulation of RNA presumably containing full-length gene RNA transcriptand a primer set containing a primer specific to the ligated RNAoligonucleotide and a primer specific to a known sequence of the gene ofinterest, is used to PCR amplify the 5′ portion of the desired fulllength gene which may then be sequenced and used to generate the fulllength gene. This method starts with total RNA isolated from the desiredsource, poly A RNA may be used but is not a prerequisite for thisprocedure. The RNA preparation may then be treated with phosphatase ifnecessary to eliminate 5′ phosphate groups on degraded or damaged RNA,which may interfere with the later RNA ligase step. The phosphatase ifused is then inactivated and the RNA is treated with tobacco acidpyrophosphatase in order to remove the cap structure present at the 5′ends of messenger RNAs. This reaction leaves a 5′ phosphate group at the5′ end of the cap cleaved RNA which can then be ligated to an RNAoligonucleotide using T4 RNA ligase. This modified RNA preparation canthen be used as a template for first strand cDNA synthesis using a genespecific oligonucleotide. The first strand synthesis reaction can thenbe used as a template for PCR amplification of the desired 5′ end usinga primer specific to the ligated RNA oligonucleotide and a primerspecific to the known sequence of the gene of interest. The resultantproduct is then sequenced and analyzed to confirm that the 5′ endsequence belongs to the relevant gene.

The present invention also relates to vectors or plasmids, which includesuch DNA sequences, as well as the use of the DNA sequences. Thematerial deposited with the ATCC (e.g., as described in columns 2 and 3of Table 1A, and/or as set forth in Table 1B, Table 6, or Table 7) is amixture of cDNA clones derived from a variety of human tissue and clonedin either a plasmid vector or a phage vector, as described, for example,in Table 1A and Table 7. These deposits are referred to as “thedeposits” herein. The tissues from which some of the clones were derivedare listed in Table 7, and the vector in which the corresponding cDNA iscontained is also indicated in Table 7. The deposited material includescDNA clones corresponding to SEQ ID NO:X described, for example, inTable 1A and/or Table 1B (ATCC Deposit No: Z). A clone which isisolatable from the ATCC Deposits by use of a sequence listed as SEQ IDNO:X, may include the entire coding region of a human gene or in othercases such clone may include a substantial portion of the coding regionof a human gene. Furthermore, although the sequence listing may in someinstances list only a portion of the DNA sequence in a clone included inthe ATCC Deposits, it is well within the ability of one skilled in theart to sequence the DNA included in a clone contained in the ATCCDeposits by use of a sequence (or portion thereof) described in, forexample Tables 1A and/or Table 1B or Table 2, by procedures hereinafterfurther described, and others apparent to those skilled in the art.

Also provided in Table 1A and Table 7 is the name of the vector whichcontains the cDNA clone. Each vector is routinely used in the art. Thefollowing additional information is provided for convenience.

Vectors Lambda Zap (U.S. Pat. Nos. 5,128,256 and 5,286,636), Uni-Zap XR(U.S. Pat. Nos. 5,128,256 and 5,286,636), Zap Express (U.S. Pat. Nos.5,128,256 and 5,286,636), pBluescript (pBS) (Short, J. M. et al.,Nucleic Acids Res. 16:7583-7600 (1988); Alting-Mees, M. A. and Short, J.M., Nucleic Acids Res. 17:9494 (1989)) and pBK (Alting-Mees, M. A. etal., Strategies 5:58-61 (1992)) are commercially available fromStratagene Cloning Systems, Inc., 11011 N. Torrey Pines Road, La Jolla,Calif., 92037. pBS contains an ampicillin resistance gene and pBKcontains a neomycin resistance gene. Phagemid pBS may be excised fromthe Lambda Zap and Uni-Zap XR vectors, and phagemid pBK may be excisedfrom the Zap Express vector. Both phagemids may be transformed into E.coli strain XL-1 Blue, also available from Stratagene.

Vectors pSport1, pCMVSport 1.0, pCMVSport 2.0 and pCMVSport 3.0, wereobtained from Life Technologies, Inc., P.O. Box 6009, Gaithersburg, Md.20897. All Sport vectors contain an ampicillin resistance gene and maybe transformed into E. coli strain DH10B, also available from LifeTechnologies. See, for instance, Gruber, C. E., et al., Focus 15:59-(1993). Vector lafmid BA (Bento Soares, Columbia University, New York,N.Y.) contains an ampicillin resistance gene and can be transformed intoE. coli strain XL-1 Blue. Vector pCR®2.1, which is available fromInvitrogen, 1600 Faraday Avenue, Carlsbad, Calif. 92008, contains anampicillin resistance gene and may be transformed into E. coli strainDH10B, available from Life Technologies. See, for instance, Clark, J.M., Nuc. Acids Res. 16:9677-9686 (1988) and Mead, D. et al.,Bio/Technology 9: (1991).

The present invention also relates to the genes corresponding to SEQ IDNO:X, SEQ ID NO:Y, and/or the deposited clone (ATCC Deposit No: Z). Thecorresponding gene can be isolated in accordance with known methodsusing the sequence information disclosed herein. Such methods includepreparing probes or primers from the disclosed sequence and identifyingor amplifying the corresponding gene from appropriate sources of genomicmaterial.

Also provided in the present invention are allelic variants, orthologs,and/or species homologs. Procedures known in the art can be used toobtain full-length genes, allelic variants, splice variants, full-lengthcoding portions, orthologs, and/or species homologs of genescorresponding to SEQ ID NO:X or the complement thereof, polypeptidesencoded by genes corresponding to SEQ ID NO:X or the complement thereof,and/or the cDNA contained in ATCC Deposit No: Z, using information fromthe sequences disclosed herein or the clones deposited with the ATCC.For example, allelic variants and/or species homologs may be isolatedand identified by making suitable probes or primers from the sequencesprovided herein and screening a suitable nucleic acid source for allelicvariants and/or the desired homologue.

The polypeptides of the invention can be prepared in any suitablemanner. Such polypeptides include isolated naturally occurringpolypeptides, recombinantly produced polypeptides, syntheticallyproduced polypeptides, or polypeptides produced by a combination ofthese methods. Means for preparing such polypeptides are well understoodin the art.

The polypeptides may be in the form of the secreted protein, includingthe mature form, or may be a part of a larger protein, such as a fusionprotein (see below). It is often advantageous to include an additionalamino acid sequence which contains secretory or leader sequences,pro-sequences, sequences which aid in purification, such as multiplehistidine residues, or an additional sequence for stability duringrecombinant production.

The polypeptides of the present invention are preferably provided in anisolated form, and preferably are substantially purified. Arecombinantly produced version of a polypeptide, including the secretedpolypeptide, can be substantially purified using techniques describedherein or otherwise known in the art, such as, for example, by theone-step method described in Smith and Johnson, Gene 67:31-40 (1988).Polypeptides of the invention also can be purified from natural,synthetic or recombinant sources using techniques described herein orotherwise known in the art, such as, for example, antibodies of theinvention raised against the polypeptides of the present invention inmethods which are well known in the art.

The present invention provides a polynucleotide comprising, oralternatively consisting of, the nucleic acid sequence of SEQ ID NO:X,and/or the cDNA sequence contained in ATCC Deposit No: Z. The presentinvention also provides a polypeptide comprising, or alternatively,consisting of, the polypeptide sequence of SEQ ID NO:Y, a polypeptideencoded by SEQ ID NO:X or a complement thereof, a polypeptide encoded bythe cDNA contained in ATCC Deposit No: Z, and/or the polypeptidesequence encoded by a nucleotide sequence in SEQ ID NO:B as defined incolumn 6 of Table 1C. Polynucleotides encoding a polypeptide comprising,or alternatively consisting of the polypeptide sequence of SEQ ID NO:Y,a polypeptide encoded by SEQ ID NO:X, a polypeptide encoded by the cDNAcontained in ATCC Deposit No: Z, and/or a polypeptide sequence encodedby a nucleotide sequence in SEQ ID NO:B as defined in column 6 of Table1C are also encompassed by the invention. The present invention furtherencompasses a polynucleotide comprising, or alternatively consisting of,the complement of the nucleic acid sequence of SEQ ID NO:X, a nucleicacid sequence encoding a polypeptide encoded by the complement of thenucleic acid sequence of SEQ ID NO:X, and/or the cDNA contained in ATCCDeposit No: Z.

Moreover, representative examples of polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in Table 1Ccolumn 6, or any combination thereof. Additional, representativeexamples of polynucleotides of the invention comprise, or alternativelyconsist of, one, two, three, four, five, six, seven, eight, nine, ten,or more of the complementary strand(s) of the sequences delineated inTable 1C column 6, or any combination thereof. In further embodiments,the above-described polynucleotides of the invention comprise, oralternatively consist of, sequences delineated in Table 1C, column 6,and have a nucleic acid sequence which is different from that of the BACfragment having the sequence disclosed in SEQ ID NO:B (see Table 1C,column 5). In additional embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in Table 1C, column 6, and have a nucleic acidsequence which is different from that published for the BAC cloneidentified as BAC ID NO:A (see Table 1C, column 4). In additionalembodiments, the above-described polynucleotides of the inventioncomprise, or alternatively consist of, sequences delineated in Table 1C,column 6, and have a nucleic acid sequence which is different from thatcontained in the BAC clone identified as BAC ID NO:A (see Table 1C,column 4). Polypeptides encoded by these polynucleotides, otherpolynucleotides that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention. Additionally,fragments and variants of the above-described polynucleotides andpolypeptides are also encompassed by the invention.

Further, representative examples of polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in column 6of Table 1C which correspond to the same Clone ID (see Table 1C, column1), or any combination thereof. Additional, representative examples ofpolynucleotides of the invention comprise, or alternatively consist of,one, two, three, four, five, six, seven, eight, nine, ten, or more ofthe complementary strand(s) of the sequences delineated in column 6 ofTable 1C which correspond to the same Clone ID (see Table 1C, column 1),or any combination thereof. In further embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in column 6 of Table 1C which correspond to thesame Clone ID (see Table 1C, column 1) and have a nucleic acid sequencewhich is different from that of the BAC fragment having the sequencedisclosed in SEQ ID NO:B (see Table 1C, column 5). In additionalembodiments, the above-described polynucleotides of the inventioncomprise, or alternatively consist of, sequences delineated in column 6of Table 1C which correspond to the same Clone ID (see Table 1C,column 1) and have a nucleic acid sequence which is different from thatpublished for the BAC clone identified as BAC ID NO:A (see Table 1C,column 4). In additional embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in column 6 of Table 1C which correspond to thesame Clone ID (see Table 1C, column 1) and have a nucleic acid sequencewhich is different from that contained in the BAC clone identified asBAC ID NO:A (see Table 1C, column 4). Polypeptides encoded by thesepolynucleotides, other polynucleotides that encode these polypeptides,and antibodies that bind these polypeptides are also encompassed by theinvention. Additionally, fragments and variants of the above-describedpolynucleotides and polypeptides are also encompassed by the invention.

Further, representative examples of polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in column 6of Table 1C which correspond to the same contig sequence identifier SEQID NO:X (see Table 1C, column 2), or any combination thereof.Additional, representative examples of polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the complementary strand(s) of thesequences delineated in column 6 of Table 1C which correspond to thesame contig sequence identifier SEQ ID NO:X (see Table 1C, column 2), orany combination thereof. In further embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in column 6 of Table 1C which correspond to thesame contig sequence identifier SEQ ID NO:X (see Table 1C, column 2) andhave a nucleic acid sequence which is different from that of the BACfragment having the sequence disclosed in SEQ ID NO:B (see Table 1C,column 5). In additional embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in column 6 of Table 1C which correspond to thesame contig sequence identifier SEQ ID NO:X (see Table 1C, column 2) andhave a nucleic acid sequence which is different from that published forthe BAC clone identified as BAC ID NO:A (see Table 1C, column 4). Inadditional embodiments, the above-described polynucleotides of theinvention comprise, or alternatively consist of, sequences delineated incolumn 6 of Table 1C which correspond to the same contig sequenceidentifier SEQ ID NO:X (see Table 1C, column 2) and have a nucleic acidsequence which is different from that contained in the BAC cloneidentified as BAC ID NO:A (See Table 1C, column 4). Polypeptides encodedby these polynucleotides, other polynucleotides that encode thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides and polypeptides are alsoencompassed by the invention.

Moreover, representative examples of polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in the samerow of Table 1C column 6, or any combination thereof. Additional,representative examples of polynucleotides of the invention comprise, oralternatively consist of, one, two, three, four, five, six, seven,eight, nine, ten, or more of the complementary strand(s) of thesequences delineated in the same row of Table 1C column 6, or anycombination thereof. In preferred embodiments, the polynucleotides ofthe invention comprise, or alternatively consist of, one, two, three,four, five, six, seven, eight, nine, ten, or more of the complementarystrand(s) of the sequences delineated in the same row of Table 1C column6, wherein sequentially delineated sequences in the table (i.e.corresponding to those exons located closest to each other) are directlycontiguous in a 5′ to 3′ orientation. In further embodiments,above-described polynucleotides of the invention comprise, oralternatively consist of, sequences delineated in the same row of Table1C, column 6, and have a nucleic acid sequence which is different fromthat of the BAC fragment having the sequence disclosed in SEQ ID NO:B(see Table 1C, column 5). In additional embodiments, the above-describedpolynucleotides of the invention comprise, or alternatively consist of,sequences delineated in the same row of Table 1C, column 6, and have anucleic acid sequence which is different from that published for the BACclone identified as BAC ID NO:A (see Table 1C, column 4). In additionalembodiments, the above-described polynucleotides of the inventioncomprise, or alternatively consist of, sequences delineated in the samerow of Table 1C, column 6, and have a nucleic acid sequence which isdifferent from that contained in the BAC clone identified as BAC ID NO:A(see Table 1C, column 4). Polypeptides encoded by these polynucleotides,other polynucleotides that encode these polypeptides, and antibodiesthat bind these polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in column 6of Table 1C, and the polynucleotide sequence of SEQ ID NO:X (e.g., asdefined in Table 1C, column 2) or fragments or variants thereof.Polypeptides encoded by these polynucleotides, other polynucleotidesthat encode these polypeptides, and antibodies that bind thesepolypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in column 6of Table 1C which correspond to the same Clone ID (see Table 1C, column1), and the polynucleotide sequence of SEQ ID NO:X (e.g., as defined inTable 1A, Table 1B, or Table 1C) or fragments or variants thereof. Inpreferred embodiments, the delineated sequence(s) and polynucleotidesequence of SEQ ID NO:X correspond to the same Clone ID. Polypeptidesencoded by these polynucleotides, other polynucleotides that encodethese polypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention.

In further specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more of the sequences delineated in the samerow of column 6 of Table 1C, and the polynucleotide sequence of SEQ IDNO:X (e.g., as defined in Table 1A, Table 1B, or Table 1C) or fragmentsor variants thereof. In preferred embodiments, the delineatedsequence(s) and polynucleotide sequence of SEQ ID NO:X correspond to thesame row of column 6 of Table 1C. Polypeptides encoded by thesepolynucleotides, other polynucleotides that encode these polypeptides,and antibodies that bind these polypeptides are also encompassed by theinvention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of a polynucleotide sequence in whichthe 3′ 10 polynucleotides of one of the sequences delineated in column 6of Table 1C and the 5′ 10 polynucleotides of the sequence of SEQ ID NO:Xare directly contiguous. Nucleic acids that hybridize to the complementof these 20 contiguous polynucleotides under stringent hybridizationconditions or alternatively, under lower stringency conditions, are alsoencompassed by the invention. Polypeptides encoded by thesepolynucleotides and/or nucleic acids, other polynucleotides and/ornucleic acids that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention. Additionally,fragments and variants of the above-described polynucleotides, nucleicacids, and polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, a polynucleotide sequence inwhich the 3′ 10 polynucleotides of one of the sequences delineated incolumn 6 of Table 1C and the 5′ 10 polynucleotides of a fragment orvariant of the sequence of SEQ ID NO:X are directly contiguous Nucleicacids which hybridize to the complement of these 20 contiguouspolynucleotides under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention. Polypeptides encoded by these polynucleotides and/ornucleic acids, other polynucleotides and/or nucleic acids encoding thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides, nucleic acids, and polypeptides arealso encompassed by the invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of, a polynucleotide sequence in which the 3′ 10polynucleotides of the sequence of SEQ ID NO:X and the 5′ 10polynucleotides of the sequence of one of the sequences delineated incolumn 6 of Table 1C are directly contiguous. Nucleic acids whichhybridize to the complement of these 20 contiguous polynucleotides understringent hybridization conditions or alternatively, under lowerstringency conditions, are also encompassed by the invention.Polypeptides encoded by these polynucleotides and/or nucleic acids,other polynucleotides and/or nucleic acids encoding these polypeptides,and antibodies that bind these polypeptides are also encompassed by theinvention. Additionally, fragments and variants of the above-describedpolynucleotides, nucleic acids, and polypeptides are also encompassed bythe invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of, a polynucleotide sequence in which the 3′ 10polynucleotides of a fragment or variant of the sequence of SEQ ID NO:Xand the 5′ 10 polynucleotides of the sequence of one of the sequencesdelineated in column 6 of Table 1C are directly contiguous. Nucleicacids that hybridize to the complement of these 20 contiguouspolynucleotides under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention. Polypeptides encoded by these polynucleotides and/ornucleic acids, other polynucleotides and/or nucleic acids encoding thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides, nucleic acids, and polypeptides,are also encompassed by the invention.

In further specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, a polynucleotide sequence inwhich the 3′ 10 polynucleotides of one of the sequences delineated incolumn 6 of Table 1C and the 5′ 10 polynucleotides of another sequencein column 6 are directly contiguous. Nucleic acids that hybridize to thecomplement of these 20 contiguous polynucleotides under stringenthybridization conditions or alternatively, under lower stringencyconditions, are also encompassed by the invention. Polypeptides encodedby these polynucleotides and/or nucleic acids, other polynucleotidesand/or nucleic acids encoding these polypeptides, and antibodies thatbind these polypeptides are also encompassed by the invention.Additionally, fragments and variants of the above-describedpolynucleotides, nucleic acids, and polypeptides are also encompassed bythe invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of, a polynucleotide sequence in which the 3′ 10polynucleotides of one of the sequences delineated in column 6 of Table1C and the 5′ 10 polynucleotides of another sequence in column 6corresponding to the same Clone ID (see Table 1C, column 1) are directlycontiguous. Nucleic acids that hybridize to the complement of these 20lower stringency conditions, are also encompassed by the invention.Polypeptides encoded by these polynucleotides and/or nucleic acids,other polynucleotides and/or nucleic acids encoding these polypeptides,and antibodies that bind these polypeptides are also encompassed by theinvention. Additionally, fragments and variants of the above-describedpolynucleotides, nucleic acids, and polypeptides are also encompassed bythe invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of, a polynucleotide sequence in which the 3′ 10polynucleotides of one sequence in column 6 corresponding to the samecontig sequence identifer SEQ ID NO:X (see Table 1C, column 2) aredirectly contiguous. Nucleic acids that hybridize to the complement ofthese 20 contiguous polynucleotides under stringent hybridizationconditions or alternatively, under lower stringency conditions, are alsoencompassed by the invention. Polypeptides encoded by thesepolynucleotides and/or nucleic acids, other polynucleotides and/ornucleic acids encoding these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention. Additionally,fragments and variants of the above-described polynucleotides, nucleicacids, and polypeptides are also encompassed by the invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of a polynucleotide sequence in which the 3′ 10polynucleotides of one of the sequences delineated in column 6 of Table1C and the 5′ 10 polynucleotides of another sequence in column 6corresponding to the same row are directly contiguous. In preferredembodiments, the 3′ 10 polynucleotides of one of the sequencesdelineated in column 6 of Table 1C is directly contiguous with the 5′ 10polynucleotides of the next sequential exon delineated in Table 1C,column 6. Nucleic acids that hybridize to the complement of these 20contiguous polynucleotides under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention. Polypeptides encoded by these polynucleotides and/ornucleic acids, other polynucleotides and/or nucleic acids encoding thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides, nucleic acids, and polypeptides arealso encompassed by the invention.

Table 3

Many polynucleotide sequences, such as EST sequences, are publiclyavailable and accessible through sequence databases and may have beenpublicly available prior to conception of the present invention.Preferably, such related polynucleotides are specifically excluded fromthe scope of the present invention. Accordingly, for each contigsequence (SEQ ID NO:X) listed in the fifth column of Table 1A and/or thefourth column of Table 1B, preferably excluded are one or morepolynucleotides comprising a nucleotide sequence described by thegeneral formula of a-b, where a is any integer between 1 and the finalnucleotide minus 15 of SEQ ID NO:X, b is an integer of 15 to the finalnucleotide of SEQ ID NO:X, where both a and b correspond to thepositions of nucleotide residues shown in SEQ ID NO:X, and where b isgreater than or equal to a +14. More specifically, preferably excludedare one or more polynucleotides comprising a nucleotide sequencedescribed by the general formula of a-b, where a and b are integers asdefined in columns 4 and 5, respectively, of Table 3. In specificembodiments, the polynucleotides of the invention do not consist of atleast one, two, three, four, five, ten, or more of the specificpolynucleotide sequences referenced by the Genbank Accession No. asdisclosed in column 6 of Table 3 (including for example, publishedsequence in connection with a particular BAC clone). In furtherembodiments, preferably excluded from the invention are the specificpolynucleotide sequence(s) contained in the clones corresponding to atleast one, two, three, four, five, ten, or more of the availablematerial having the accession numbers identified in the sixth column ofthis Table (including for example, the actual sequence contained in anidentified BAC clone). In no way is this listing meant to encompass allof the sequences that may be excluded by the general formula; it is justa representative example. All references available through theseaccessions are hereby incorporated by reference in their entirety. TABLE3 SEQ cDNA ID Contig EST Disclaimer Clone ID NO: X ID: Range of a Rangeof b Accession Numbers HACBT91 11 789939 1-827 15-841 AW957974,AW003857, AI820045, AI523911, AW084836, AI983096, AI333432, AW188197,BF338099, N41047, AI433769, AI379333, AW438811, AA927750, BE139611,AI435307, BF436802, AW613586, R71675, AA678318, AA748856, AA301830,AI337423, AW243869, AA577365, AI382805, AI926335, AA568182, R47922,AA057770, R50081, BE247721, AI539624, AI698267, AI224055, BE244865,AI365443, N47137, AA903242, AV707146, AW955723, AV702790, AV701751,AW962407, AV705416, AI535639, AV705047, AW954994, AV703012, AW957544,BF380516, AV729076, AV707458, AV706060, AV704785, AV701728, AV709232,AW957628, AW954206, AV709235, AV707753, AV686390, AW955616, AW961393,AV725497, AV729376, AV728436, AV697196, AW958846, AW963660, AW951562,AW949999, AI535660, AV728733, AV692600, AV727314, AV703766, AV705319,AW959907, AW950888, AV656903, AW956199, AW957853, AV704180, AV696106,AV706223, AW963378, AW964540, AV727238, AV705869, AV705811, AW953969,AV689111, AW961593, AV695545, AV702266, AW952064, AV704955, AW963868,AV705135, AI525856, AW949731, AW958280, AV686420, AV686100, AV726103,AV695752, AV693523, AV709551, AV702861, AW951707, AV694674, AV709101,AV698429, AV702372, AV697498, AW950597, AW952223, AV692691, AV706229,AW958916, AV701067, AV658334, AV728670, AV705562, AW949729, AW955152,AV684962, AV729378, AW949523, AW957102, AV705134, AV685966, AW955662,AI536138, AW956637, AV653325, AV705693, AV702498, AW950199, AV708203,AW964369, AV701643, AW950172, AV707002, AV725153, AV706136, AI557602,AW955904, AV727916, AW950411, AV707024, AW949529, AV706147, AW963601,AW953788, AV647006, AV702035, AV705520, AW954782, AW951743, AW957682,AV702172, AW966604, AV705453, AW952368, AW956762, AW962384, AV654287,AV708025, AV728309, AW950079, AV708980, AW965813, AW958901, AW959980,AW955841, AV705959, AV725697, AW950395, AV706910, AW959982, AW950443,AW950248, AV708850, AV707329, AV703635, AW954237, AV704798, AV703030,AV703542, AW959543, AW963011, AW963750, AW950671, AW955713, AV725948,AW949451, AW966756, AV729132, AV701881, AW949927, AV653809, AW955609,AV649672, AW950446, AW949351, AV702673, AW957110, AW954372, AV728874,AV685955, AW949530, AW959828, AW964111, AW960601, AV705185, AW966444,AW950012, AW962444, AV725001, AV703494, AW959806, AV705981, AW952403,AW957987, AW966603, AV726789, AV661704, AV706893, AW964673, AV727978,AV706459, AW953797, AV707414, AK025994.1, U94592.1, Y08991.1, Z30183.1,AF217994.1, U45328.1. HADDE71 12 839187 1-653 15-667 BE646364, BE562975,BE734905, AA227916, BE275558, BE387443, AI568587, BE387535, AW245842,BE857544, AI805978, BE386863, AA530975, AA845548, BF437434, AW627607,BE741623, BE898827, AA393921, AI201926, AI391625, AI199262, AI675180,AI123847, AA463396, AI128152, AI197839, BE791237, BE384118, AA913172,AA505110, AW408817, AI187762, AI076304, BE899199, R52594, AW009600,AA465034, AA913634, AA488109, AA885156, AA452881, AA464960, AA884143,BF340639, AI886462, AI188491, BF446332, BF221728, AA227574, R84997,BE243531, BE903843, AA424231, BF331414, AI675231, BE249813, D45528,R40380, W60397, BE670322, F37062, R53393, AI473277, R84954, BE265829,AW407603, W60306, AA322573, AI928674, AI368380, AL535519, AI312011,AI886883, AI471250, BF032040, AA336279, AI357522, F31267, BE910005,BE311908, BE293522, AV681951, AI349772, BE964812, BG108147, BE047859,AW827203, BF054789, AV682330, AL513597, AL514803, AV682809, BG168696,AI868831, AW268253, AV682441, AL047042, AV682266, BF724691, BE047863,BF795712, BG058208, AV711509, AW071349, BE048071, AL514627, AL513907,AL513803, AV758592, AV723772, AL515041, BE613622, AV758110, AV710479,AV762488, BF673434, AV704928, AI349645, AV682249, AI815383, AV755581,AL135661, AV695052, BF968041, BE905408, BG033403, AV733397, AV682521,AV723204, BG179993, AI684265, AV756770, AI349614, AV682051, AV682772,AL119049, AV681668, AV682289, AV706777, AL514791, BG250190, AI207510,BF726322, AL514473, BE785905, BE880190, AV655645, BE881155, AV681630,AV682252, AL121270, AV723062, AL045500, AL513643, AV758668, AI906328,AV758217, AV681857, AV757012, BG108324, AV682082, AL120854, AV682479,AV681872, AL514935, AW080838, AV682074, BG105099, AV682466, AV729890,AV682222, BF981774, BG259801, AI349598, BF343172, AL515047, AL514155,BE048319, AV755613, AW467961, AV682672, AL515373, AI500553, AI907070,BG254754, AI064830, BE964700, AV733385, BF340104, BE777769, BE964486,AI687376, AW166645, AV682697, AV756703, AV682476, AV726951, AV756477,AV682351, BG109125, BG036846, BG259943, AL513631, AL515173, AI909666,AL514261, BG110283, AI340582, BE783707, AI436456, BF971016, BF969662,BE891101, BG178809, AV758806, AV755614, AV708119, AV757096, AL036396,AV681858, BE877769, BE018711, AW162071, BG114104, AV732941, AV723953,BE906959, AV710608, AV705644, AV733326, AV734318, BE048065, BF883916,AV681586, AL513763, AL514691, BG257535, AV704350, AV758738, AV729334,BF339420, AI580190, AI149592, AI345111, AI624859, AV682496, AL514919,BF344705, BE967113, AF078844.1, AF125949.1, AL512733.1, AL389978.1,S78214.1, AL133640.1, BC007021.1, AF090900.1, AF090934.1, AL442072.1,AL050393.1, AL049938.1, BC008387.1, AL157431.1, AB048953.1, AF090943.1,AB055303.1, BC008417.1, AL133016.1, AL110196.1, AB056809.1, AL136586.1,AL442082.1, AF090901.1, BC008365.1, AL050146.1, AL137527.1, AL117457.1,AJ242859.1, AK026608.1, AL136787.1, AL133606.1, AL117460.1, AB050510.1,AF218014.1, AL122050.1, AF104032.1, AB056420.1, AF090903.1, AK000212.1,BC008488.1, AL080060.1, AL390167.1, AL049452.1, AB049758.1, AL359596.1,AB063046.1, AL136749.1, AL110221.1, BC003687.1, AL359601.1, AF111847.1,BC003683.1, AL136789.1, AF106862.1, AK026865.1, AL162006.1, AK027868.1,AB047615.1, AF090896.1, AL136892.1, AB048964.1, Y16645.1, U42766.1,AL049430.1, AB019565.1, AL050149.1, AL049466.1, AB063070.1, AK026741.1,AL050116.1, AK025084.1, AL122093.1, AL162083.1, AK025339.1, AB060916.1,AL050108.1, AB055361.1, BC001967.1, AB060887.1, AB056768.1, AB060908.1,AB063008.1, AB047801.1, AL096744.1, AL049314.1, AL133075.1, AL133557.1,AK025958.1, AK026045.1, AL133258.16, AL133080.1, AL136799.1, AF219137.1,AK026855.1, AL050277.1, BC006807.1, AF091512.1, AL122123.1, AL080137.1,AL080124.1, AC007375.6, AL133093.1, AB060912.1, AK026784.1, AL137283.1,AL389982.1, AF097996.1, AL133565.1, AK026744.1, AB060863.1, AL137459.1,AL353594.13, AL137557.1, AK000618.1, AL512746.1, BC002733.1, AL136844.1,AL136768.1, AL122121.1, U91329.1, AL050138.1, AC007390.3, AF146568.1,AK026542.1, AK025772.1, AK026533.1, AP001873.3, AL512719.1, AL117394.1,AK027096.1, AL512718.1, AF091084.1, AC026787.4, AK000614.1, AC004690.1,AB055368.1, BC006195.1, AL359618.1, AF207829.1, AK000445.1, AB062938.1,AL110225.1, AK000137.1, AK025092.1, AB060825.1, AF125948.1, AC022215.4,AK026452.1, AK000083.1, AL137550.1, AL512754.1, AF271350.1, AL359941.1,AB047904.1, X82434.1, AB060826.1, AK026353.1, AC002467.1, AB048954.1,BC001045.1, BC004556.1, AK000652.1, AB048974.1, AL117585.1, AL512454.6,AC000111.1, AL353802.14, AK026592.1, AL513015.6, AL359615.1, AL499604.9,AC006371.2, AB051158.1, AB055366.1, AC006336.4, AL133560.1, AL512689.1,AC004686.1, AK026647.1, AK026927.1, AK026583.1, AL117583.1, AK024538.1,AK026480.1, AF348209.1, AF177336.1, AL353940.1, AP001699.1, AF334404.1,AF061943.1, AC026464.6, AB055315.1, AB052191.1, AB060852.1, AK025491.1,AL049382.1, AL022147.3, AC005886.2, AK026528.1, AL049300.1, AK027113.1,AL049464.1, AK026504.1, AK026959.1, AL117435.1, AL136928.1, AL050024.1,AL161628.9, AL445236.22, AK026534.1, S61953.1, AL136845.1, AK026086.1,AF225424.1, AK026532.1. HADDJ13 13 827273 1-2304 15-2318 AW575129,AW022897, AA010299, AU144131, AA669573, F11929, AL138228, AA634252,T66105, AA219059, R91924, R51726, AA856981, AA782322, AC079383.17,AC004552.1, Z95118.1, AF224669.1, AC018797.4, AC003035.1, AL161436.12,AC008625.5, AC002565.1, AC002350.1, AL390738.4, AC073593.13,AL354932.26, AC004491.1, AC011497.6, AC051619.7, AC008440.8, AF205588.1,AC007546.5, AC005250.1, AC016594.6, AC006038.2, AL031120.1, AC020658.6,Z84469.1, AC018719.4, AC006080.1, AF324890.1, AL354873.19, AL391259.15,AL162615.13, AL034372.33, AC018639.8, AL132777.4, AC004605.1,AL352978.6, AL160269.14, AL136000.4, AC024168.4, AL080275.20,AC090942.1, AC004685.1, AC008901.5, Z82198.2, AL121578.1, AC013734.4,AL133286.9, AC002091.1, AL356575.8, AC007934.7, AC005035.1, AL031311.1,AC005840.2, AL117337.25, AL035400.13, AC068724.7, AC007225.2,AL499604.9, AC005208.1, AL139785.5, AC002368.1, AC011484.4, AL162233.14,AC018637.3, AC091493.1, AL035555.10, AL136231.12, AP001714.1,AC044797.5, AC006211.1, AC009779.18, AL160155.19, AP000512.1,AC079754.4, AL391987.15, AP001732.1, AC083861.2, AC024060.5,AC025262.27, AL158069.16, AB023051.1, AC087311.22, AC078833.3,AC005670.1, AL391136.9, AL163267.2, AL080315.18, AC022201.4,AL138721.16, AC007318.4, AC005529.7, AL121594.6, AL136300.22,AL391114.12, AC006285.11, AL079342.17, AL031293.1, U82671.3, AC011310.3,U52111.2, AC018812.5, AL136365.9, AC078846.2, AL356379.10, AC007358.2,AL162231.20, AC000085.5, AC072061.8, AC010234.5, AC007151.2, AL445669.9,AL079340.7, AL445928.8, AC007363.3, Z94056.1, AC012377.5, AC006195.1,AL139109.14, AC002312.1, AC012368.6, AL022164.1, AC027124.4, AC005884.1,AC016574.6, AC010735.11, AL358815.12, AC008009.4, AL109964.20,AL161793.9, AL139092.12, AC010326.6, AC003950.1, AC002351.1, AC022468.5,AE000658.1, AC009484.3, AL031659.9, AC009247.12, AL138836.15,AL121595.5, AC004674.1, AC007386.3, AL355339.7, AC025168.7, AC021188.6,AP001731.1, AL138832.10, AC007228.1, AL355530.6, AJ009612.5, AP001671.1,AC015853.8, AC073607.19, AL137230.3, AL031295.1, AL122125.4, AC018641.3.HADMA77 14 783049 1-1899 15-1913 BE886986, AL118575, BF963505, BE896957,AA019981, AI871227, AW958870, AI148306, AI090074, AA594961, AI620245,N62115, AI499838, BE139496, AA253149, H37934, AW953772, AA398760,BE883579, AW008316, R17479, AI934670, AA253150, AI436173, AI446137,D59581, AI128007, R54297, H42535, D61056, D80139, R61184, AI197892,AA729655, D51488, H55864, H55771, AI075689, AA911710, AA292804, H86756,BF963502, T57670, AI961860, H42534, D51454, D81542, T34704, D80154,D81775, AA001440, T59256, D59479, R42975, R61185, AA994602, D51481,D51437, D59463, D59482, R46039, R51909, AA359928, AA659063, N79566,Z40268, R25021, R42826, D52193, Z42365, AA358058, T57710, AV656695,AL048093, R43779, AW276733, AA365016, AL048094, F01883, AA708838,C14366, N78346, AI601109, W16551, R18081, C00235, BF663261, BC007974.1.HADMB15 15 847116 1-316 15-330 AW136268, BG056888, AI131328, AI174443,AI091646, AW117296, AW168872, AI082447, AI432175, AI290911, AI741489,AI682685, AI142536, BG059892, AW149659, AW071935, AA233541, AI183690,BG056462, AI689641, AA599916, BF196591, BF196843, AA199743, AW136277,N77910, AA564806, AA243035, AA779709, AV722133, AI032138, AA844525,AI467910, AW965361, AA852418, AI982751, AI282445, AI982761, T03902,AI420648, AW167499, H08108, BE328548, AW068986, C15651, D52660,AW665899, AI246702, AI538705, AI271662, AI435112, AI288692, BE466948,AI690048, D55112, AA779042, AL536118, D53747, D54101, AA486941, D53384,W07076, AA232504, AA486765, BF832290, AI038647, AW497637, BF947006,AU155428, T05461, AL136582.1, BC001207.1, AB040527.1, AB058762.1,AB040528.1, AB040529.1. HAGBQ12 16 722205 1-729 15-743 AI332690,AI374724, AI285345, AA876359, AA987498, AI702600, AI079453, AI382918,C04098, R63800, AI697895, H87363, R67068, BE673734, R73892, BF432849,R68633, R68632, R66112, H03322, AA340294, H87907, AP000350.1,AC007363.3, AC003969.1, AC005948.14, AP000360.1, AC004066.1, AC000053.2,AC002060.3, AL450169.1, AL033522.1. HAGCC87 17 638587 1-1578 15-1592AA587370, AA351604, AA661545, R22639, R22638, R18189, AA650370,AI459585, AI810301, R17880, BF434228, BE811111, BE701381, AA572974,BF857849, T50676, AL120282, AW168846, AI192440, AA714288, AI268019,AI745335, BF681619, BF828236, AU117483, BE147135, AA503298, AW513071,BE675695, AI811846, AI203527, AI079823, AI826761, AA634991, AI355007,AW769654, AI249365, AA704040, AA602951, AA652834, AV762430, W02749,AA836552, AF236698, AA492105, AA747977, AA948670, AI523316, AW337805,AI565126, AI610737, AA405726, AW512528, AI499954, AW013787, AA565232,AI917636, AI869797, AI133083, BG056992, AI887235, AA483075, AI366555,BE906142, AA425924, N33184, AA282951, AA773473, BF868994, AA833896,AA775188, AA251356, AA833875, BF845126, T17332, AW589345, AA736488,AW747980, BE677126, AA713705, AA904211, H91062, BF991881, AW194325,BF447461, BF032064, AL118612, AL034430.4, AL138878.10, AL133332.12,AL117380.28, AL161725.13, AP000143.1, AC004650.1, AL160155.19,AL035086.12, AL512310.3, AL450265.11, AL022393.1, AC004166.12,AC024167.5, AL390918.7, AL135960.1, AJ131016.1, AL035683.9, AF196969.1,AP001695.1, AL049795.20, AC079174.20, AP000090.1, AC002542.1,AC087777.2, AP000893.5, AL365364.19, AL118525.17, AC003962.1,AC004540.1, AL022238.1, AC003665.1, AC005042.1, AC007597.3, D87675.1,AC004662.1, AP001972.4, AP003438.2, AL365223.19, AC010223.5, AC000379.1,AL161670.4, AP001694.1, AC004820.2, AL035594.7, AC004776.1, AC008537.5,AL138759.20, AC002312.1, AL360270.18, AC083884.6, AL031663.2,AC006213.1, AL139322.13, AL356017.3, AC008906.5, AL031726.22,AL355385.15, AC012170.6, AL158147.17, AL138761.12, AL360089.13,AC000085.5, AC079141.7, AL109938.8, AP002847.2, AL512430.14, Z86064.1,AC006511.5, AC055745.23, AL138784.30, AC004987.2, AF168787.1,AC023600.19, AP001718.1, AP000171.1, AP000056.1, AL512658.12,AL031774.1, L78833.1, Z82190.1, AC034186.4, AL031319.5, AP000124.1,AL121902.13, AC012368.6, AL133418.4, AL121997.7, AC005856.1,AL137800.12, AC078961.23, AP001706.1, AL163210.2, AC009996.7,AC026164.5, AL050349.27, AC006251.3, AC020604.9, AC011003.7,AC023510.16, AC005913.2, AJ400879.1, AC007367.3, AL360230.20,AP000330.1, AL132986.4, AL590611.7, AL445489.10, AC026203.3,AL031427.15, AL033378.12, AL031577.1, AC090514.1, AC024093.46,AC026202.6, AC009220.10, AC006455.2, AC005047.3, AL031584.1, AC008685.7,AC006039.2, AC009499.4, AC005091.1, AC005924.2, AL358354.16,AL031123.14, AC002044.1, AC018821.4, AL139274.17, AC013468.12, Y10196.1,AC067941.7, AC010340.7, AC068102.4, AC003108.1, AC006023.2, AC084865.2,AC018686.7, AC006928.15, AC007130.2, AL117330.6, AL031594.9, AL392044.7,AC068724.7, AL450344.4, AL118520.26, AL121929.17, AC073927.9,AC005358.1, AL034346.31, AL445590.4, AP001728.1, AF205588.1, AC022116.5,AP000851.4, AL034372.33, AC005098.2, AP001432.1, AC025540.7,AL357912.10, AC005065.1, Z95116.1, AL139021.6, AL590037.7, AP000462.2,AC007955.4, AP000151.1, AL139125.18, AB017654.1, AL159140.4, AC005343.1,AC090950.1, AC018641.3, AL117337.25, AL034421.7, AL160471.5,AL080243.21, AC022469.5, AL590073.6, AC023114.5, AL031295.1, Z86061.1,AC007458.13, AL163195.5, AL049832.3, AC012519.9, AL022069.1, AL162551.3,AC007005.3, AC004167.1, AL358434.16, AC005099.1, AL138876.23,AC006460.3, AC004477.1, AL445217.3, AP002015.3, AL138958.18, AC004802.1,AC007254.3, AC016579.5, AL391262.3, AC018752.4, AL022329.9, AL133453.3,AP001646.4, AC007270.2, AP000469.2, AL359645.15, AC011246.6, AC003043.1,AC005971.5, AC009032.7, AL353752.6, AC004911.1, AC034207.4, AL356057.12,AC009482.4, AC083868.2, AC007256.5, AC069262.24, AL353741.16, Z98200.8,AP001708.1, AL391839.9, AL118556.4, AL137072.8, AC015971.4, AC010553.6,AC012634.7, AP001717.1, AP000567.2, N55064. HAGHN57 18 773286 1-242615-2440 AL533248, AU118622, AU119331, AU133909, AU119469, AU118182,BE794468, BE791529, BG176702, BE280450, BE729801, BF663566, BF970116,BE257176, BG032912, AL516224, BG121097, BE784191, BG249033, BE727671,BE881192, BE745390, BF792305, BF037862, AV710149, BE617085, AV751361,AW291174, BG163346, AI686123, BG033409, AV762315, AV704873, BE540243,BF344980, AV707943, BF671351, BE394881, AW070780, BE538770, BF303671,BE541947, AW963773, BF303913, AW299817, BE378370, AW299807, BF107096,AW515893, AI338838, BE254836, AW402330, AA455894, AI436127, AL516223,BF001973, AI392820, W31025, W28207, BE535313, BE258523, BF109189,AA182513, BE617702, AW275883, AW674662, BG169977, BE711218, AA134574,AW304388, AA588768, BE868534, AU144819, AA455892, BF802948, BF222585,AW902162, H16095, AI034153, AU145137, AI905391, AI985354, BG011776,AW612879, BE711276, AV659416, AU150558, BE702340, BF055535, BE711244,AA652292, AW271981, AA780056, AI624858, AA319693, AA604113, AV744893,AW771218, AV742941, AA837954, T60588, AA150957, AA151047, AI991761,AI912891, AI628783, AI434787, AW072744, AA716130, BF807693, AA181782,AI554969, AA916968, AA101864, AI473865, AA362607, AW338509, AI525459,BE244147, AI928082, AI433249, BF062859, AI910904, AA285264, BE711295,AI354885, AW006732, AI950274, AU144122, AI990867, AI922170, AA115829,AA806393, BE672240, AU156842, BE243206, AI633602, W01852, BE711219,AI280611, AA707161, AA301320, BF197637, AI695111, AW966603, BF447153,F29695, BE378061, AA336840, AI424341, AA385049, AI307649, N58884,AA131117, AI205138, BF431130, BF807685, N98771, AA602492, BE711204,BF438567, F34557, AA748737, T60437, AA745028, AW891490, AW673414,AI630237, AW378199, AW779341, BE172988, BE172375, AA101187, AA781579,AI478435, BE699167, R57333, AI927982, R92570, BE764834, BF818234,AA648053, BE464290, AK000994.1, AC004668.1, AL050216.1, AA227675.HAGHR18 19 655435 1-1128 15-1142 AA678513. HAQAI92 20 688037 1-59315-607 AL522436, AL524148, AA513002, AI735602, AA772397, AW014080,AI799589, AI818675, BE617237, AA478326, AI217776, AW409592, BE646171,AI005409, AA552147, AW177019, H42123, R00846, H42122, BE795741,AA362478, AI491808, AI769438, AI560335, BE613582, AI336126, AI371050,R01499, AI610208, BF089287, BF095098, AW613379, AI275309, BF752321,BC004222.1, AL118502.38. HAQBG57 21 837545 1-1034 15-1048 BE562515,AI742455, AI961996, AA507216, AI190639, AA731364, AI673081, AA593594,AI003558, BF528073, BF885284, AI435334, AW438908, AI381200, R69327,AI204170, AI739035, AI401755, AI591140, AA432147, AA251459, AW967618,AA446655, AI682154, AW613695, AI500259, AA398391, R79970, AI149747,H97579, AI263813, AA401707, BE350370, R69328, AA670245, AA643922,AA852081, BF345349, AA889222, BE782687, BF034010, BF038771, BC008671.1.HAQCE11 22 633730 1-582 15-596 N45328, H29603, F10900, AW949645, D80045,AW965158, AW949642, AV738340, AV742732, AV724520, AW949643, AV741220,AW964468, AW966389, AV718489, AW966330, AV699550, D58283, AV718692,AW975618, AV742048, AW978634, D81030, AV718844, AW959570, AV720203,D80043, D59619, D80195, D80210, D80240, D51423, D51799, D80391, D80253,AV719822, D80227, AV719324, AV719783, AV718800, AW966531, D80188,AV720211, AV720464, AV718770, AV720731, D80219, AV699447, AV722801,D80196, AV723927, AV699927, C14429, D59927, D80038, D80212, D80193D80022, AV719468, AW949632, F13647, AW949641, D80366, D59889, AV700889,AV720812, AV721386, AV723097, AW973447, AW949656, C15076, AW949629,AW966062, D59275, AW966053, AW964532, AV701335, AV742001, AV701043,AV701332, AV701017, AV701248, AW959628, AV701431, AW949653, D80378,T03269, AW949633, AW949658, C75259, AV744690, D50995, AW949657,AV719188, AV719557, AW949631, AV742667, AV701125, AV701166, AV700229,AV699746, C14014, AW973307, AW975621, AV702035, D80134, AW949646,AV701419, AV699479, AV701154, D80164, AW959582, AV701443, AV744012,AV720028, D59502, D81026, AV719628, AV718707, D80166, AW966534,AV701130, AV701149, AV701422, D59859, D80268, AV718440, AW965177,AV741221, AW949618, AV645344, D51250, D80269, AW960553, AW966054,D80168, D59467, AV701428, D80949, AV701415, AV701344, AV719000, D59787,AV745080, AV645389, D80522, AV681510, AV681491, AV701021, AV645343,AW959202, AW960414, AV681505, AV681504, AW949654, AV721784, AW973541,AW966013, AV720654, D58253, AW966041, AV719913, AV718674, AV705134,C14227, AW959597, AW964737, C14331, AV720791, AV701004, AW978661,AW973470, D50979, AW966050, AW752082, AV720220, AV700622, AV699669,D80024, AV743601, AV681529, AW966043, AV704180, AV705869, AV706229,AV701224, AW949655, AV719049, AV701330, AV681468, AV720607, AW960465,AW973334, AW964488, AV681474, AV741012, D57483, AV742671, AW973485,AV744773, AV718633, AW975605, AV681526, AV727978, D59610, AI905856,AV699682, AV718931, AV744934, AV645383, AV645393, AW959799, AV681528,AV645339, AV681472, AW978648, AV681507, AV681465, AV681525, AV681495,AV681486, AV681464, AV681487, AV681506, AV681523, AV742720, AW966029,AV742430, AW966022, AV738928, AV726812, AW966023, AA285331, AV706147,D59695, D81111, AV744768, AW949620, D80241, AW958992, AW964756,AV681514, AV681477, AV681512, AV681497, AV681483, AF035294.1,AB028947.1, AF271371.1, D34614.1, X67155.2, D88547.1, AF058696.1,AB028859.1, AB002449.1, U79457.1, Y08991.1, U94592.1, Z30183.1,D50010.1, AB033111.1, S78798.1, X92518.1, AB038216.1, X98248.2,U45328.1, X60736.1, AF217994.1, AB035274.1. HBAGD86 23 838799 1-169915-1713 AI658681, BE466145, AI806836, AI653272, AA004211, BE302094,BF970406, BE018485, AA418617, AA594901, AI580148, BF589715, AI804211,AI669907, AI342168, AI810310, AA506350, AW022528, H10330, AA721162,AA452114, W03931, AW953290, AI262137, R61309, AA680147, N62384, H10331,AI264925, AA765972, BF086698, AW275301, AA485210, C15277, N79353,AA350799, AI867727, AI474438, AI129224, AA093047, D60782, AI535847,AA897480, AA350798, AV714899, AW956763, AV728867. HBGBC29 24 6914731-1842 15-1856 BF223021, BF036281, AI341667, AA180986, AU153625,AU151704, AI093197, BE855464, BE018834, BE616741, BF684563, AI694268,AA031711, AI469856, N63041, N50125, AI150599, AI597740, AI985206,AI671591, W72535, BF431270, AI741942, AA037642, AA180865, AA031648,AA436065, AI800796, AA129939, BF056140, AW002265, AU157670, AI074205,AA830493, BF063800, AI056532, AI656721, W00519, AI275143, AI337739,AW172525, AA443349, AA043021, AA446926, AI655558, AI769027, AA101851,AA917703, W93307, AA526333, AI689128, AA777090, AW002829, BE295568,AW139517, AI128702, AI276137, AW801873, AA873711, AW892754, N98234,W76109, AI631104, AA856832, W92810, AA042939, H87505, AA129938,AI688779, AA693329, AI676108, T87624, AA570072, AA037641, AI186390,AW515672, AA031685, AA037500, R82703, AA037234, AW380430, AA985191,AU131994, BE302396, H87506, AA938640, AI926907, AU118291, AI696069,T74071, AA102060, AW057528, AI671894, AI962374, AI695458, AA046964,BE869607, BF814627, F12449, AA725452, AI968837, AA917824, AA054749,BF437316, F10070, AA917678, BE218382, BE669660, AI916503, AW612381,AA683581, AI984598, AA937814, AI932475, AA046963, AA053281, AI801723,BE858841, AI499751, AA031686, AI074981, AI341558, AI478279, BF735972,AK001006.1, BC004523.1, AF020920.1, AF038662.1, AB024436.1, AF022367.1.HBJAB02 25 837309 1-1679 15-1693 AL529646, AL529645, BE898304, BG112747,BF791411, BG036058, BE392384, BE621757, BE548173, BE895853, BG034671,AA808894, BE901085, BE278873, AW152607, BE795658, AW166898, BG122141,BE782474, BF972826, BE793716, BE140314, AW750993, AA826362, AW517942,BE714673, T59668, BE731030, BF939314, BE732766, BE745104, AI290469,BF477770, AI805651, AI961329, AA581089, BE902575, AW197375, AA974066,AI950259, BF802171, W27729, AV693783, AA877530, AA715365, AI968889,AA885542, AA160748, AA386371, AA335719, BF873961, W73105, BF223151,BE740826, AL120854, BE548914, AA318192, AA501478, BF125073, AI948815,AA581100, AA658457, AI621069, T59802, AA468534, AA503715, BF850755,AW956069, AW841506, AI144504, AA352215, BE897964, BF883404, BF373009,BE090290, BE168997, AW855521, AW820855, BG230749, BF376598, BE622839,AV699089, AV647789, AI567702, AV726156, AW961037, AW411235, AV726058,AW020397, AV706279, AV702427, AV651955, AV702026, BE393551, AV727787,AV660608, AV687176, AW021717, AV698545, AV687909, AV709256, AV708438,AV656903, AV661704, AV696106, AV697196, AW409775, AW951263, AV689111,AV655280, AV728157, AV692345, AV659322, AV654908, AV656478, AV708893,AV709314, AV708381, AV660728, BG168549, AV659536, AV691080, AV706219,AV695545, AV652001, AV705159, AV648263, AV703169, AV728518, AV707541,AW952409, AV709660, AV726624, AV706854, AV729220, AV709604, AV687035,AV696866, AV728997, AV704955, AV726816, AV725920, AV652156, AV701707,AV656283, AV704234, AV708025, AV707933, AV684604, AV729378, AV708980,AV692691, AV701914, AV708723, AV702516, AV693523, AV709407, AV705693,AV708992, AV729263, AV726103, AV708704, AV727029, AV726520, AV728733,AV725826, AV702021, AV725134, AV705280, AV645906, AV683415, AW265004,AW964228, BE047925, AV705076, AV707792, AV729259, AA127565, AW022102,AV686064, AV701067, AV704124, BC000131.1, AK000069.1, AC015651.18,AF147378.1, AK027463.1, AF097996.1, AF217986.1, AF217994.1, BC000090.1,BC003658.1, BC008282.1, AL356376.9, S71381.1, AK026494.1, BC006378.1,BC004362.1, AL137283.1, AK000212.1, AY026527.1, Y08991.1, BC007199.1,AF218004.1. HBMUH74 26 866160 1-712 15-726 AI633540, BE999936, AL529110,AI911597, AW016785, AA479308, AI381011, AI057451, AI283542, AI224172,AI025510, BF929951, AW589256, AU156824, AU155569, BF063133, R43074,R25758, BF818086, AL529111, BE567017, BE077233, H09061, AA479409,AL136843.1, AK001927.1, AK027756.1, AK001324.1, AC009318.11. HBNAX40 27834801 1-2779 15-2793 BF966078, BF792338, BF034911, BF217973, BE883387,BF947401, BF574197, BF060683, BE220005, BE645102, AI808818, AU158323,BE222311, BE467629, BF985268, AA203305, BE504175, BE612371, BE504478,AI890286, BF514573, AW173142, AI674096, BE301797, AW962903, AI674111,AI935063, AW958697, BE931820, AI431629, AI418384, AU157624, AW958686,H10461, AW995348, AW511978, AA864829, N29528, AI287632, AU157306,AW206871, AI381961, BE018315, AW238878, R61198, H80193, AA531283,AA565321, AW073280, AW026572, AW243789, AI819460, AI913516, BE503173,AA305587, AA305897, AW952734, BE815642, C01749, H10462, R58932,AI040839, T17118, R62976, H17748, H11865, R63031, AA970617, AI247608,R63338, T07723, AA774553, AA371079, BF084654, AA329699, BF802622,AW139568, AW027833, R61199, H11505, N57467, R19912, BE695240, R63337,R06902, AA337757, R33944, R14158, T55659, AA247547, AU140145, AA329948,AI872648, H17635, T55578, AI802966, N67275, R40453, AA318909, AA039614,AI565257, AI540752, AW865932, N46626, R06946, N40466, T25153, AI444969,AI262121, H78817, AW150803, AI003014, AI457343, N34900, AK023746.1,AF264912.1, AF305081.1, AF329696.1, AF342982.1, AL356305.11. HBXCX15 28637542 1-1205 15-1219 AA595781, AW277007, AI274544, AA548746,AC006329.5, AC009412.6. HCDBO32 29 831942 1-2616 15-2630 AL537440,AL531001, AL531000, AU118775, BE613081, AW976126, BE739778, BE612415,BE886668, AW965087, BF671603, BF114976, BF001395, BF104843, BG169691,BF790959, AU145261, AI524826, AV700940, BF115561, AI628083, BE501914,BF028814, BG107506, AA456561, BF695399, BF064237, AW771567, AI554053,AU152051, AI066556, AI478798, BE962627, AW770611, AW963335, BE739003,BF064238, AI801476, AI807830, AA913477, AI424225, AA227589, BF575758,AA625584, AI963182, AW771337, AA576069, AI252762, AA070604, BF589915,AV702872, AA428503, AA235962, AI539101, AA419520, AA721024, BF700344,AI357722, AA314319, AA310761, AA235961, AA888687, AA479915, AW300423,AA304968, AA912243, AI910898, AI521757, AI658537, AI000288, AI244242,AA304963, AI583529, AI950641, AI005178, AI254210, AA806032, BE177264,BE769195, H26906, AI688879, AA832031, AA081596, BF082553, BE699120,BF588478, AW888693, AW888689, AA362983, BE176881, R33476, AI382821,AA614062, AV747748, R34012, AA652453, AV748003, AA343918, AA355362,AW965719, AW819087, AA074345, AC004987.2, AK021702.1, AC004884.1,AB017707.1, AJ012491.1. HCEEE79 30 560609 1-1038 15-1052 AL353658.33.HCEFZ82 31 831745 1-1797 15-1811 BF981465, BF688419, BF969763, BG178653,BE730527, AI672493, N21040, BE395792, AW386160, BE858812, AI672483,BF530193, AI693512, AV751914, BG180158, AI138621, BG104179, AA778387,AA173791, BF939691, AW615384, AW960851, AW594109, BF091657, AI022755,AA209239, AI077708, AI824069, AI936432, AI038303, N39250, AI927782,AI457926, AI436138, AI056772, AI079503, N58793, AI016045, AA210850,AI096581, AA062719, W88815, AA725072, AI375410, AA669791, BE300887,BF431891, AA173843, W31742, W88816, AI740977, BE727603, AI086937,AA704681, AI190844, AI341909, AI365029, N46695, BF590052, AV749863,AI086941, AI676179, AA826493, AA554932, AA789007, BF111593, AA917998,R08679, AA889734, W04647, AA321894, AI912831, AV750240, AI239655,BF592139, H71960, AI368377, AA992261, BE277655, H78240, H78440,AI470391, R37067, AV694383, AI700804, R44781, AW612991, R10835, H96434,N77482, AA314780, R44068, AV751269, R08587, AV697548, AI419628,BE218690, N90646, H65409, BF530646, AA836620, W26811, R10834, AV660888,AV747670, AA905784, AI086303, H84253, AI086248, AV723953, BE881061,BG110517, BE047952, BG180996, AV682466, BF107905, AI312428, BE876038,AW051059, AI538885, AV757598, BF752170, BG113385, BF968903, BG028873,BG113847, AW301865, AL036802, BG033199, AV682875, BG178911, AI345612,AV732936, BF924882, AW827285, BE966634, BG120492, AI345415, AW827206,BG164371, AW827214, AW827276, BF971336, AA568405, BG026714, AL118781,BE965758, BE965192, BE875407, AI581033, AL041573, BG260037, BF835240,AV682330, AI343059, AV760102, BG058150, AI361701, BF816811, AV756838,AI345416, BF338002, AA614183, AI349933, AI340519, AI349937, AI340603,AW129264, AV681885, BE887488, BF341801, AV757639, BE881134, AW022636,AV682787, AV682672, AL036631, BE907151, AL040169, BG034564, BF108279,BG110797, BG029053, AV709517, AA572758, BE966699, AV757018, BE963838,BE875868, BE905726, AW403717, BG114990, BG110660, BG116387, BG036846,BF980991, AI859991, BG119329, BG260187, AV729627, BF915208, AI241901,AW161579, BF911517, AI815232, BE895585, AL036396, BF792050, AI064830,AW673679, BG111377, AV734765, BF814450, AW935969, AW806761, AL045413,AL119836, AI698391, BE536058, BF968533, BE964614, AW302988, AW827289,BF764538, AW778801, AL039086, AV706987, AI433157, BE910005, BE048135,AL513943, AV757943, BE892325, BE965621, BE967307, AI349645, BE874133,BF791952, BG033267, BE965481, BG105812, BF527014, BF816685, AW834302,AI683395, N71199, AV733682, AI312152, BF909758, BC001698.1, AF225418.1,AL133067.1, AL049300.1, AL110196.1, AB055368.1, AL122050.1, AL096744.1,AF090934.1, AL137529.1, AK025958.1, BC006201.1, U42766.1, AL133565.1,AF218031.1, AL136640.1, AK026784.1, AL117457.1, AK026434.1, BC007199.1,AL136787.1, AL389935.1, AL162006.1, S61953.1, AB060908.1, AL136790.1,AF097996.1, BC007926.1, AB062978.1, AF218014.1, AF090900.1, AB047631.1,AB047941.1, AL512733.1, AL050393.1, S78214.1, AL357195.1, AB060929.1,AL133557.1, BC004908.1, AB055303.1, AB060887.1, AF207829.1, AL133080.1,AL133640.1, AF210052.1, BC000090.1, AL359601.1, BC003120.1, AK026518.1,AL137459.1, BC001293.1, AK025015.1, AL035458.35, AF078844.1, AL050116.1,BC003683.1, BC008417.1, AB052200.1, AL442072.1, AK027868.1, AB060229.1,AK026353.1, AB060873.1, AL512746.1, AF111847.1, AL133606.1, AK026542.1,AB056427.1, AK024992.1, BC001967.1, BC004370.1, AL049314.1, AB060837.1,AL050146.1, AL442082.1, AK026506.1, AL137527.1, AB049892.1, AF022813.1,AL049382.1, AB063008.1, AK027161.1, AL359583.1, AK026741.1, AB048974.1,BC006525.1, AK026927.1, AL157431.1, AL162085.1, AF090896.1, AL122121.1,AL162002.1, AK026583.1, AL049430.1, AK026797.1, Z37987.1, AL136789.1,AL133016.1, AK000323.1, AL122118.1, BC006807.1, AL136749.1, AB055361.1,AL137283.1, Y16645.1, AF090943.1, AK026480.1, AF285836.1, AK026522.1,AK026630.1, AK025708.1, AK025484.1, BC008387.1, AB060826.1, AK026086.1,AL133093.1, AB063070.1, AK000432.1, AK025339.1, BC004195.1, AF146568.1,AL137705.1, AL122123.1, BC003104.1, AK000618.1, BC008836.1, AK026855.1,AL136844.1, AB056420.1, AB052191.1, AK025092.1, AL049452.1, AL117460.1,AF090886.1, AF090903.1, AL136845.1, AK024538.1, AL137292.1, AL136799.1,AL512719.1, AB047615.1, AK026744.1, AB056421.1, AL117583.1, AL442083.1,AK024974.1, AK000212.1, AK000083.1, AB056809.1, AL110221.1, BC007680.1,AK026452.1, AB047904.1, AL353956.1, AF056191.1, BC006195.1, AL136784.1,AF104032.1, AF091084.1, AL512750.1, AL512718.1, AK026045.1, AB060863.1,AF125949.1, AL137488.1, AL390167.1, AL080124.1, AL137276.1, AL050277.1,AB048953.1, AL512761.1, AL137271.1, AL359596.1, AB063046.1, AB055366.1,AF120268.1, AJ242859.1, AK025632.1, AL080127.1, AB049758.1, AK026924.1,AL137550.1, U72621.3, BC001418.2, AK024594.1, AB051158.1, BC006440.1,AL049283.1, Y10936.1, AK025375.1, AK025414.1, AK025573.1, AB060852.1,AL512689.1, AL122100.1, AL583915.1, AL110225.1, AL136892.1, AY034001.1,AK026600.1, D83032.1, BC007021.1, BC003687.1, AB047878.1, AL136884.1,BC008488.1, Y14040.1, BC002839.1, AL389983.1, BC008899.1, AK000137.1,AL049466.1, AK026959.1, AB048954.1, AB063088.1, AL136893.1, BC008282.1,BC004119.1, AL136586.1, AF090901.1, AL122093.1, BC008893.1, AB060214.1,AL096751.1, BC008365.1, AL080060.1, AK027113.1, AB060912.1, AL162083.1,AL136767.1, AL049938.1, AL512684.1, BC002647.1, AK000445.1, BC006408.1,AF069506.1, AK025084.1, BC007556.1, AL133075.1, BC003548.1, AL137533.1,BC008078.1, AL136864.1, AL137548.1, AF106862.1, BC006832.1, AK026591.1,AL133560.1, AK000652.1. HCUCF89 32 637986 1-516 15-530 AI524118,BE277210, AL039145, BF698704, BE276480, BE409047, BF698510, BG150796,BF666395, AW089101, BF945647, BE274150, BF699964, AL038072, AU121417,AI630176, AA847952, AW410354, AP001759.1, AC069162.8, AC091529.1,AC018787.5, AL138706.9, AC006449.19, AP000744.4, AK023598.1, AL513550.9,AP001468.1, AC006014.2, AL035691.17, AE000658.1, AC005971.5, AC005049.2,AC002543.1, AL109743.4, AC005488.2, AL121891.22, AL031727.42,AC005182.2, AC006975.2, AK022018.1, AC005725.1, AL035405.10,AL158830.17, AF053356.1, AC008050.6, AC008962.8, AC007912.6,AL137783.12, AL031295.1, AC011515.4, AC004089.25, AL161747.5,AL021937.1, AC068640.29, AC004098.1, AL139081.21, AE006467.1,AC069279.6, AC008055.6, AC013445.8, AC000070.2, AC006050.1, AL022326.1,AL391646.12, AC020658.6, AL121601.13, AC005104.1, AP000946.3. HCWAE64 33535893 1-457 15-471 AL043265, BE895962, BF091850, BF924502, BF930204,AW973724, BE906549, BF972009, AA558125, BG163769, AW993087. HCWUL09 34834722 1-747 15-761 AL138741.13. HDPDI72 35 897277 1-1536 15-1550AV717810, AC018828.3, AC011464.5, AC022383.3, AC022384.4, AC034193.4,AC002472.6, AC021015.4, AC008119.6, AL356299.16, AC004951.5, AC018808.4,AF003626.1, AP000215.1. HDPFY18 36 779450 1-2173 15-2187 AW792967,R41077, BF921165, AV750453, AA729108, AA715505, AW975570, AA714451,BF826980, AW999989. HDPIE44 37 899328 1-4101 15-4115 AL528314, AU130887,BE780963, BF966718, AL118570, BE739397, AU126476, AU139315, BF512830,BG115027, BE880693, AI908306, BF791388, BF035925, BF540985, AU122664,AV724420, AI672418, BF665031, BF057158, BF206660, BG120429, BE738855,BF129883, AW959181, BF106186, BF966523, BF213412, AI042351, BF211302,AL042137, BF515714, BF206917, BF031857, BF131974, BF129874, BE514139,AV696443, BF037314, AV661523, AW130577, AA424461, AW130565, AA902916,AU127429, BF677116, AU150429, BF665735, AA983275, AI239435, BE155330,AV705068, BF212900, AV710135, BF432386, BF057834, BF211687, AA461260,AA312396, AI627321, AI160503, N63373, BE502195, AV751301, AI884925,BE468064, BF513143, AV750990, AA186321, BF184200, BE559625, AA749086,AW025721, AU152756, AI418879, AA402517, N26419, AA088855, AI042350,BE268734, AI761107, AI819134, AA678020, AU150014, AA113363, AW341372,BF184441, AI457727, AA649198, BE674349, AA888970, AA580858, AA199866,BE270920, AV649723, H24854, AA100701, AW025691, BE836719, BG010680,BE550985, BE087003, AA326555, R77878, AA424417, AA188173, AL044709,H05951, BF792719, BF930036, N56631, N41679, BF923482, H45855, AI218982,AW779309, AV751002, BE089649, C17343, BF081703, R81295, AA502426,BE646243, BE931964, AW594429, BE676875, R11716, BF748564, H06000,AA460953, BE832883, AV703744, AI265945, AV751157, BE720186, AW021533,T09412, BF849176, AA088766, AA437111, AA336899, BE262777, AA358792,BE155518, H99315, BG166471, BE270762, BE313275, BF239379, AA888732,BE825194, T89695, D78877, AI269641, BG011279, AI469067, AW874055,AW338714, AW874611, N88500, BF445639, AW058314, BE677169, AW139207,R17691, T31819, AW513547, AW472793, AA358708, AV660383, AI765491,AI582998, AI084965, AA598573, AV750235, AA730781, R44452, D61165,AA716555, AA056000, AA322246, R08530, AA333655, BE972774, BE169279,AI870585, BE615699, AI870612, BE169269, AI678506, AI640581, AA648833,R08529, BE383572, BE247425, BF155632, R19666, AW993917, D62489,BG028138, AL040103, AA360932, AI763357, AI652881, BF088332, BE327501,AL528313, AA055971, AV749018, AV748843, AA088700, AI570710, AA004833,AI685231, AA178900, AI886543, BE812475, AW166705, BE812487, T89515,AA347000, D60417, BE937678, AW054783, BE812457, T48558, AA953749,AI199099, AI769397, AI369907, AA199752, BE701083, BF914380, BF508221,BE838996, BE707763, AV646433, BE819207, AV651409, T25765, AA113444,AB018353.1, AK022816.1, AK025737.1, AF202724.1, AK022469.1, AF064854.1,AL133074.1, AA188877. HDPIU94 38 813352 1-2182 15-2196 AU140297,AL529544, AL529545, AU124978, AI740820, AU116885, AU126162, AW960772,AI565169, BF111956, BG251247, BG177689, BE780814, AI628285, AA482031,BE784432, AA947029, AW954823, AW190175, AA315300, AU143854, AA707674,AI332610, N50136, AU148736, AU127152, AW768480, BF947113, AA223261,AW955931, AI276839, AA189165, AA804584, AA767472, AA223378, AA894857,AA252718, R46372, AA939277, N59367, AA219127, AA774827, AV762911,BE546354, N72682, AA219510, AV761697, AA872005, AW188325, W02461,R21326, AI923716, D29223, R68368, BF771937, BE769443, AA322537, R08745,AA417592, R08746, AW952240, AA299861, AW377015, AA337351, H60482,N76470, BF088734, AA218745, AA336556, BE896274, AI810734, AW118290,BF380800, T30177, D29202, BF910258, AA337527, AA336555, R68574,AI167609, AA376922, AW968355, BF351657, AI832198, AW972092, AW968356,AW972093, AW968729, AI432644, AI623302, AW971740, AI432654, AI432650,AI432653, AW081103, AW858522, AW972091, AW969229, BE672759, AW972090,AI432677, AI431230, AI431307, AI431316, AI431328, AI431353, AI431312,AI432655, AI431310, AW128900, AI431238, AL045327, AI431354, AI432666,AA580821, AI431347, AI431315, BF448552, BE672748, AI432661, AL134524,AI431323, AI431337, AI432675, AI431321, AI492519, BE672745, BE672732,AI431246, BE672719, U46344, AI431235, AI431243, AI432647, AI432651,BE672738, AI431255, AI432674, AI431330, AI432649, BE672767, AI791349,AW601637, AI431248, AI431241, AL042842, AI431254, BE672774, AI431357,AL042729, AI432672, AI432665, BE672742, AL042931, BF589777, AI432662,BE672627, AW577201, AI431345, BE672644, AL042655, AI431351, AL042508,AI431231, AI431346, AL042853, AI432676, AI432673, AI432658, AW128884,AI431257, AW577199, AL042533, AL043166, AL047611, AI431340, AL135012,BE672622, BE672792, AI432657, AL042802, AW128846, AI431247, AI432664,AI432645, BE672718, AL042787, AL042515, AL042832, AI431751, AL043295,AI431314, AI492520, BE672634, BE672743, AI355008, AI492510, AL042898,AI431350, AL043091, AI431318, BE883591, BG167830, BE672749, BE672744,AI682915, AL040207, AW128897, AI866786, AW129223, AL042488, AI432643,AL043278, AK022626.1, BC001240.1, AK001284.1, AF064854.1, AL133074.1,AL133053.1, AL136763.1, AL133049.1, AL133076.1, AL122101.1, AL136755.1,AL136758.1, AL133068.1, AL136825.1, AL133051.1. HDPPD93 39 637588 1-68715-701 AI767544, BF963878, AW391604, AW371053, AW391605, AW380560,BE150935, AW380557, AW609397, AV647627, AW609527, AV647628, BE150882,AA625481, AV647780, AW582425, AW582423, AA053357, Z39028, T31703,AI559952, AI962812, AW023035, AW247321, AW594578, AW204377, AW135110,AW069029, AA737065, R51075, AW294433, AW291912, BF511819, AW292027,AI265783, BF063801, AI274716, AI191509, AA605269, AI768872, BF057534,AI634812, AI698531, AA565825, AI275563, AI366661, BE242780, AI538787,AI203337, AI565080, AW008059, AW088320, AW073352, W73510, AW242351,AI341846, BF222967, AA513453, AI346467, AA622940, AI000935, AA535424,AI022694, BF592958, AA639759, AI679288, AI679864, AI079193, AU147451,N56986, AU148991, AI304785, AA134162, AW664542, AI337342, AI245649,AI969305, AW582354, AI081970, AI262353, AL079933, AW976197, AI991639,BF349821, AU159502, AW004865, AA665733, AI348128, AI094163, AI184073,AU152120, AU149126, AI359191, BE552234, AA632288, AA814449, AW362622,AU159545, N75380, N49596, BF869959, H48051, N70679, BF987335, AI864296,AA928727, BE963530, AA617935, AI151119, BF680667, AW978110, BE785995,BF913501, AL519088, H56669, BF526020, AI668893, AV655645, AV714752,AW087445, AW104724, AI538716, AL045500, AI564719, AI802542, BG058398,AW026882, BG031815, AI433157, BG179993, BF812961, AI620284, AI524671,AI857296, AI619502, AW118557, AI682841, AI439745, AI934035, AL514129,AL036274, AL036361, BG111590, AI560099, BE048071, BG260037, AI445432,AL036802, BG257535, AV732936, BF970449, BF812938, BG110517, AA640779,AI536685, AI445025, BG180996, AL514983, AL121365, AI521012, AI537677,BE884130, AI475371, BG112718, BG113299, AI702406, BG110684, AI349004,AI580984, AI687127, AL513907, BF032868, AW166970, AI687375, AI625079,AI440239, AI349645, AI635461, AL119049, AI433976, AW071349, AV753074,AV757018, AI285735, AV758209, BG109270, AI271786, BF792961, AI498579,BF882343, AI281762, AI690480, AI815855, BG170430, AI783504, AL043975,AI636456, AI687728, AV682093, AV708097, AW302988, AI432969, AW148716,AI800384, BG112879, BF924882, AI697137, AL514879, AL036396, AL048656,AI500077, AW827211, AI282655, AI962456, AW268253, AV681618, AV756619,AW086113, BF793244, AW129659, BF885675, AV758822, BF816811, AV758592,AI799470, AI539780, AI828682, AV681869, AI610307, AI612913, AW132056,AI872711, AI818683, AI499393, AI493248, BE887488, AV713079, AV652906,AI340519, AI537303, AW071417, AI475451, AL040243, BF107577, AW082040,AL036146, BF038106, BG036846, BF726297, AV682849, AK026796.1,AK027770.1, AL391244.11, AF251294.1, AL136882.1, AK022241.1, AB051496.1,AK026647.1, BC008387.1, BC006195.1, AF090903.1, AB055361.1, AL117394.1,BC008488.1, AB060826.1, AB063070.1, S78214.1, AL117457.1, AK025339.1,AK025092.1, AF125948.1, AB060912.1, AL359615.1, AL133606.1, AL122050.1,AL049452.1, AL157431.1, BC001967.1, AL049314.1, AL162006.1, AL137459.1,AL512746.1, AL050149.1, AK025958.1, AB055303.1, AB060887.1, AL050116.1,AL110225.1, AB048953.1, AB056420.1, AL050277.1, AL512733.1, BC008365.1,AF106862.1, BC008417.1, AL442082.1, AL117435.1, AK027096.1, AL136749.1,AL133640.1, AL133016.1, BC003687.1, AL136586.1, AL136787.1, AF090934.1,AK025084.1, AK026855.1, AL136789.1, AL512719.1, AL137557.1, AL110196.1,AK026741.1, AL359601.1, AB049758.1, AF090901.1, AL050393.1, AF104032.1,AL162083.1, AK026959.1, AK000083.1, AL133075.1, AL050108.1, AF225424.1,AF090900.1, AL389982.1, BC007021.1, AK026592.1, AK026865.1, AL122121.1,AL122123.1, AK000137.1, AL117460.1, AL110221.1, AL050146.1, AF090943.1,AL133080.1, AF219137.1, AK026045.1, AL359596.1, AK026452.1, AL096744.1,AF090896.1, AB060863.1, AB063046.1, AK000618.1, AL080124.1, AL359941.1,AF218014.1, AL512754.1, AL512718.1, AB060916.1, AL049938.1, AL133093.1,AK024538.1, AL049466.1, AF078844.1, AL136892.1, U42766.1, AK027868.1,AK026608.1, AB048954.1, AK026784.1, AL133560.1, AL390167.1, AB055368.1,AB055315.1, AB019565.1, AL080060.1, AL122093.1, AL133565.1, BC003683.1,Y16645.1, AB048964.1, AL389978.1, BC006807.1, AB063008.1, AJ242859.1,AF125949.1, AF111847.1, AL442072.1, AB056768.1, AL137527.1, AL359618.1,AK026744.1, AF146568.1, AK000445.1, AB060825.1, AK025772.1, BC007199.1,U91329.1, AF091084.1, AK025906.1, AL136844.1, AB051158.1, AB047615.1,AL117583.1, AB047801.1, AK026534.1, AL136799.1, AK026542.1, AL353940.1,BC004556.1, BC002733.1, BC008899.1, AK025491.1, AL133557.1, AL136768.1,X82434.1, BC001045.1, AL117585.1, AK000323.1, AL049464.1, AK027113.1,AK026504.1, AF207829.1, AB060908.1, AK000212.1, AB062938.1, AL050138.1,AK000432.1, AK026583.1, BC004951.1, AB055366.1, AK026927.1, AL080137.1,AK000652.1, AB052200.1, AL137550.1, AK025391.1, AK026353.1, AK026532.1,AL049300.1, AK025967.1, AL050024.1, AB060852.1, AL137283.1, AL122098.1,AF097996.1, AL512689.1, AL136928.1, AL049382.1, AK026533.1, AK025414.1,AK026528.1, AB056809.1, AB047904.1, AL136786.1, AB052191.1, BC008070.1,AL136845.1, BC002839.1, AL049430.1, AK000614.1, AF260566.1, AL133113.1,AB056421.1, AK026086.1, AL137271.1, AF177336.1, AK027204.1, BC008485.1,AK027164.1, AF183393.1, AK024588.1, AK024524.1, Z82022.1, AK026947.1,AL122110.1, BC008382.1, AK026526.1, AL512761.1, AL137648.1, AL137463.1,AL049283.1, AK026630.1, AK025484.1, AF271350.1, BC008983.1, AK026480.1,AL359583.1, X72889.1, AK027116.1, AK027213.1, AK026629.1, AB060929.1,AK025524.1, AB050510.1, AK025209.1, AK000647.1, AL512765.1, AK026597.1,AL512684.1, BC003548.1, AL137538.1, AK026642.1, AK000718.1, AL359622.1,AL080127.1. HDTLM18 40 836057 1-511 15-525 T62863, AL049843.18. HE6CS6541 762960 1-1512 15-1526 BG114804, AV718161, BG115294, BG163956,AW362005, AW579708, AA425593, AV732860, AA778426, AW367244, AL537244,AW856936, BF377273, BE675130, BG119784, BF978611, AA194252, AI937228,AW292921, AI222740, BF349929, AW856088, AI348188, AW665835, AA025880,BF333804, AW005582, AI139606, AI126585, AW959277, AI417243, AI339985,AI972128, W52543, AA829354, BF333819, AI078819, AV752850, AW857034,BE789386, AI299395, AW675446, AI083537, AW516855, AA035526, AW005637,AA932845, AI088259, AI492529, BF375157, AI334135, AI682947, AI753237,AI923621, AA425629, BF804458, AI628857, AI635633, AI085676, AI580195,AI138968, BE350523, AA005425, BF333807, AW102884, W52544, AI022376,W39677, AI920867, BF333811, AI240384, N49885, AA227905, AI087384,AI302240, AI933336, AI670129, N98508, AI268859, AA232843, AI221780,AA253379, N71409, AA004925, BF761279, AI066394, BF811217, AI302764,AA311893, AW571609, AI080166, AI299456, AA844294, AI342664, AI147714,AA464423, T60255, BF807121, AA765193, H29427, AA876118, AW265722,AI074827, AA808646, AA193122, H43349, AA233282, AI693779, AI245406,R60024, AA005426, AA995705, AW302271, AA934521, AI061151, AW366962,H38317, T90537, AI445689, W44818, H12893, AI446122, AA253378, H78422,AW378644, AI753445, R44689, N99734, AW102871, AA719170, AA464422,AA974340, H78222, AA934622, AW149309, R68103, AW265649, H40537,AA807276, H43181, AI277059, T34512, AA430350, BE539364, AI076849,AA347001, T81330, BE049268, H26609, AW589372, BG231066, AI092386,R24873, R43362, Z40090, AA334085, AW378680, N31595, H58243, R68147,AA257048, AA004926, H12894, AA886683, BF593823, F02035, AI559907,AW062917, N49990, H43311, AA295950, AI364249, R52133, BF748425,BF804455, AA778257, AW379516, T81506, AI080028, AA347002, BF377711,T83072, AL134712, H26654, BE082628, BF131565, AA227588, BF092102,BE774491, BF092109, AI382725, W63710, BF807108, F01928, BF858654,W31073, AA169731, AW367337, AA936648, AA193460, AW378675, H43212,BE082824, BF858661, AW864790, AA946635, T61637, AA304629, R17644,BE047631, AI867081, T24808, AA293625, R52222, AW890658, AA425423,BF929843, BE888442, C02346, Z99943.1, AK024700.1. HE8BQ49 42 5894431-1861 15-1875 W35257, AC009225.3, U49973.1, AF036938.1, AL445225.9,AC006142.1, AC006077.1, AC008670.4, Z74739.1, AL023755.5, AC008780.6,AL445212.9, AL356317.8, AL137244.28, AJ271735.1, U70984.1, AF241734.1,AC021506.5, AL391868.15, AL162386.17, AC009312.4. HE9CY05 43 8348261-1033 15-1047 N76568, N54458, H74303, H74302, H73373, R02548, H40263,H58326, AI242058, H58715, H73374, R02666, AI438986, T80187, AA676653,AI022453, T87491, N86939, N88474. HEAAW94 44 847340 1-910 15-924AA578368, AA492135, BE707438, AI880112, AA927112, AW970866, AA368674,AW237957, BE560582, BE560540, BE268041, BE513979, BE398109, AI525375,BE270770, AF191611.1, AF043045.1, AF042166.1. HEBFR46 45 847064 1-129015-1304 BF339246, AW957665, BG258103, AW075995, BF309372, BE868083,AW576203, BF308177, BE881903, BF689190, AI051657, AA311371, BG059809,W56301, AW058408, AA102223, BE301190, AI091799, R05745, D61582, R01123,AA102222, AA375163, BG029189, AW293550, AI752483, AA376452, AW275432,BF812696, AI439525, AW151541, AW084324, AL121039, AW265468, AI702049,AW162314, AW327673, AA577706, BE273825, BF940118, AI270280, AW148821,AW162332, AA807704, BG059139, AA661583, AW238137, AA601674, BG180320,AV742390, BE244308, AW410844, AI433952, AI828721, AA631915, AL079734,BG152746, AW473160, AW021399, AW020094, BE677164, AA728954, AI860423,AI039257, BF679568, AW243817, AI049999, AW148964, AI538404, AI826857,AI753131, AI690379, BE676856, AI003469, AV758870, BF214695, AW502688,AW631267, AI904840, AA603359, AI251696, AI819419, AI090377, AI254508,BE176819, AI554399, AA112864, AI355246, AW151848, AW962971, AI028148,AI308529, BF868826, BF970107, AA507499, AI751698, AL036896, AC006483.3,BC000787.1, AK024787.1, AC010616.5, AK027150.1, AC004659.1, AL078611.1,AK000385.1, AC005519.3, AC009756.9, AC002543.1, AC005052.2, AL354836.13,AC016995.4, AL023879.1, AC003108.1, AL139824.22, AL121675.36,AL358777.12, AC015651.18, AC011444.5, AC004966.2, AC011526.7,AC010319.7, AL121579.4, AL158040.13, AC007421.12, AC005531.1,AL391259.15, AL096701.14, AC002996.1, AC067945.4, AL109923.29, Z97183.1,AL133458.19, AC010271.6, AF279660.2, AL035086.12, AP000280.2,AL445184.11, AC008440.8, AC008848.7, AL139809.16, AC018663.3,AP000039.1, AP000107.1, AF195658.1, AP000557.2, AC004974.1, AC010789.9,AC004552.1, AC004985.2, AL160256.21, AC018633.2, AL121897.32,AC090944.1, AC020983.7, AP001715.1, AC007374.6, AL117382.28, AF207550.1,AC010422.7, AL137852.15, AC008635.6, AL035659.22, AP000463.2,AB017653.1, AL359236.4, AC005358.1, AL035683.9, AL139785.5, AL159168.15,AC000353.27, AC000379.1, L35532.1, AL357972.18, AC011479.6, AL159990.12,AL138849.12, AC008891.7, AP000555.1, AC010530.7, AC008744.6, AC025212.5,AL451162.14, AF167081.1, AC007240.2, AC003007.1, AL512489.11,AC004673.1, AC004752.1, AL138733.15, AL354948.7, AC011740.7, Z85986.1,AC005484.2, AC013355.7, AC016596.5, AL031711.30, U73636.1, AC006064.9,U91327.1, AL031680.20, AC004089.25, AL132640.4, AL109935.39, AC010326.6,AC007676.19, AL133229.40, AL136228.8, AC018797.4, AL033519.42,AL096791.12, AL391139.19, AC002312.1, Z97054.1, Z83840.7, AC004821.3,AC002060.3, AL139184.8, AC005280.3, AF107885.2, AB032485.1, AP000256.1,AF312032.1, AL035705.22, AC012379.7, AC020904.6, AC008521.5,AL356214.20, AF224669.1, AP000691.1, AC018673.4, U07561.1, AC008392.6,AC004263.1, AP002906.2, AL031058.1, AL355480.22, AC006530.4, AC009362.8,AF258545.2, AL049759.10, AL035249.6, AL008582.11, AJ009616.3,AL050404.3, AL122020.5, AP000098.1, AL133163.2, AC025166.7, AC087311.22,AL513366.11, AL353678.11, Z97632.1, AC005041.2, AL121586.31,AC006449.19, AC010412.7, AL355336.15, AL022316.2, AL353748.13,AC010526.7, AC005911.6, AC016025.12, AC084864.2, AC004066.1, AP001748.1,AC026120.33, AL050307.13, AP000361.1, AL157372.18, AL353710.7,AL049780.4, AC011895.4, AC005695.1, AL161937.13, AL354928.9, AC008738.6,AC008372.6, AP000503.1, AC002404.1, AC008482.5, AL121967.11, AC010378.6,AL449209.2, AC026672.44, AL356805.5, AL031662.26, AL449143.18,AL034369.1, AF134726.1, AL049843.18, AC008623.4, AC072061.8, Z98948.1,AC004662.1, U62317.2, AC012476.8, AC008397.7, Z98752.16, AL161670.4,AC007957.36, AC009399.5, AC008755.6, AF317635.1, AC009812.17,AC002546.1, AC003043.1, AC022211.5, AC007746.3, AL050335.32, AC005015.2,AC022405.5, AC004476.1, AL109804.41, AF001549.1, AC016602.6, AL109799.6,AC008044.4, AC004851.2, AL049795.20, AL162505.20, Z83851.17,AL359541.11, AL031282.1, AC009470.4, AL034422.24, AL133332.12,AC005365.1, AL157789.6, Z98051.6, AC006151.3, AC024561.4, AC009086.5,AC005570.1, AC010679.6, AC009469.4, AC008857.5, AC007845.12, AC005091.1,AL132713.11, L78810.1. HEOMC46 46 866171 1-925 15-939 AW026120,BF891831, AI498747, AI056326, AI075298, AI359561, BF901563, BF901553,BF893716, BF894749, BF901561, AI457604, BF891852, BF901564, BF901551,BF893717. HFCDW95 47 847383 1-857 15-871 AL529530, AV726582, BG180774,AW952054, AA398982, AL537902, BE739764, AV727582, AW300512, AV722244,AW029553, AI986473, AI950933, BG164817, AV726968, BF588526, BF476107,AW770808, BE874188, AA639868, BG252620, AI978599, AA142949, AI700677,BG059521, AI918056, BE866188, BE738987, AI828361, BF185676, BF445290,AA399621, BF031768, BF697098, BE785930, BF433181, AI380426, AU150075,BF030153, AI380761, AI040457, AW302413, AI678823, AA737313, AA548083,BE905006, AI273446, AI632020, BF001920, BG151519, AI887157, BF446900,AI925691, AI304432, AI375004, AA814501, AI284941, AI819675, AA708445,AW131704, AI478462, AL529529, AI741247, AA969450, AI308781, AA136378,BG054885, BG258115, BF701370, AI680947, AW148776, AV727838, AW304864,BF208666, AA432085, AA279397, BF028795, BF028097, N52155, BF031629,D54791, BF591720, AA809906, AA155617, BF028402, AI803830, AI347883,AA983660, AA604572, AI262096, AW236261, AW576520, AA157854, AA588204,BF131266, AA088711, AA282014, AA702285, 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AW630713, BG104880, BF038524, AA136287,AA320122, AW138663, AW627379, AW028138, AA828915, BE702523, AA256021,BF131079, AW236903, R35739, T95736, AA912070, AV726830, AW897704,AA629231, AW272373, AW798454, AI269580, AA857847, AW075519, AI783861,AI367203, AI624293, BF885000, BF814450, AI611743, AI670009, AI560679,BF970652, AI282355, AL513755, AI333104, BE966990, AI868204, AL514511,AW089844, AI554821, AL514765, AI799674, AW058207, AC006388.3,AB024334.1, AK024230.1, AL117438.1, L30117.1, AF217987.1, AL117648.1,AL136925.1, BC005805.1, AL136893.1, AK026927.1, AL080129.1, BC001045.1,AF090900.1, AB052191.1, AL512750.1, AL512719.1, AK026164.1, AL389947.1,BC006525.1, BC002409.1, BC004310.1, AK025484.1, AL137479.1, AF218004.1,AK027103.1, AB048954.1, AL080126.1, AL133665.1, AF285836.1, BC001778.1,Z37987.1, BC004324.1, AK024546.1, AL390154.1, AB047623.1, BC008040.1,BC008649.1, AK027121.1, AK027173.1, AK025375.1, AK000421.1, U42766.1,BC002457.1, AK000137.1, AK025092.1, AF090903.1, Y10080.1, AL355834.4,AK024538.1, AF111112.1, AL359615.1, BC002444.1, Y14040.1, AB049849.1,AF141289.1, AF120268.1, AL080158.1, BC003548.1, AL050116.1, AB052200.1,AJ010277.1, BC003682.1, BC002733.1, AK026865.1, AF078844.1, AK000652.1,AF091084.1, AL080110.1, AK026659.1, AL117649.1, AL117457.1, AL389935.1,AL049339.1, AK027200.1, AB060888.1, AB060914.1, BC007021.1, AC010374.5,AL049464.1, AL050277.1, BC005858.1, BC008488.1, AF097996.1, AK026480.1,AK027082.1, AB047897.1, AF262032.1, S77771.1, AF004162.1, AK026649.1,X65873.1, AL133565.1, AL136882.1, AL359620.1, AL389983.1, BC007031.1,BC003104.1, AK026642.1, AB060873.1, BC004256.1, AB063046.1, AK024974.1,AF252872.1, AF352728.1, AL117435.1, AC009484.3, X66417.1, BC000778.1,BC003627.1, AC074347.8, AC024247.4, AB051158.1, BC008284.1, AL136786.1,AK025857.1, AC026307.16, AL137258.1, AK027164.1, BC009212.1, BC003602.1,AK025435.1, AK024855.1, AL136864.1, AL359618.1, AK026647.1, AK026593.1,AK000083.1, BC008070.1, AF358829.1, AK025119.1, AK025967.1, AK000445.1,AB047801.1, BC001056.1, AL355143.17, AK026855.1, AF321617.1, BC006412.1,AK027868.1, AL096744.1, AK026532.1, AB047615.1, AK026542.1, AB050407.1,AB062942.1, BC000751.1, AL512718.1, AK000618.1, BC000772.1, AF151109.1,BC007926.1, AL117394.1, BC001844.1, AF106862.1, AL136774.1, AL512689.1,AL161628.9, AF261134.1, BC002958.1, AL162002.1, AF353396.1, AK024992.1,AB060826.1, AL136622.1, AK027129.1, AK026528.1, AL110196.1, AL122050.1,BC004899.1, AF132676.1, AB056427.1, BC005168.1, AL137281.1, AF061836.1,AF177336.1, AK025958.1, AL117460.1, AF305835.1, AF126488.1, AF132730.1,BC008723.1, BC002356.1, BC007680.1, AK025524.1, AL122118.1, AF146568.1,AF090901.1, AB060214.1, BC004181.1, AL050393.1, S76508.1, AC008592.4,AK024978.1, AL050155.1, M19658.1, AK027105.1, AL137557.1, AL512754.1,BC004370.1, BC001093.1, AK025312.1, AK025708.1, AK000323.1, AL442082.1,BC002481.1, BC000725.1, AL162062.1, BC006159.1, AF090934.1, AK027146.1,BC002697.1, AF090943.1, AF073483.1, BC008899.1, AF051325.1, AK026959.1,AB048975.1, AC010128.3, AL136789.1, AL110158.1, BC008417.1, AF179633.1,AL157433.1, AL389939.1, AB049848.1, AL080124.1, BC003105.1, AK026086.1,BC008387.1, AL162003.1, BC003591.1, AK025099.1, AK026590.1, BC004265.1,AL512705.1, BC001215.1, Z82022.1, BC004202.1, AL512733.1, AL512746.1,AK025349.1, AL157483.1, AB049853.1, BC007767.1, AB055303.1, BC007674.1,AB060887.1, AB049758.1, AF111847.1. HFEBO17 48 852218 1-976 15-990AW473576, AI089774, AW451782, AW295271, AA749033, BE440149, AI949946,AI469900, N68539, AW172942, AI872021, AW243195, BE858872, AI337875,AI376876, BE327191, BF939700, AI363093, AI471556, AI767259, BF114982,AI683261, AW028130, AW976177, BE349166, AA974484, AW027661, AI683115,AW614790, AI421188, AI281604, AW239182, AI750006, AW235809, AI493809,AA455090, BF878349, W37813, AV650898, F09284, AW193169, AA703436,AV649714, AA526238, Z41088, AI700797, AW268135, T92246, AV662283,AI916032, T17498, F02060, AV650183, BF768675, F04236, AA935093,BE884109, AV649952, AA937505, AV649940, W37230, AA585284, AV649786,AV651140, AW976261, AW365708, AL137741.1, AK000272.1, BC001249.1,BC000937.2, AL162084.1, AL157494.1, AK027465.1. HFIJA29 49 839206 1-126115-1275 AW195543, AI051690, AI927925, AI051699, AI434786, AI675823,AW590850, W84675, AI971192, AA767204, AI767042, AW139875, AI521899,BF195790, AI250256, AA829382, N20059, AA215409, H13567, Z38968,AA526451, H01273, H13200, R08173, H01182, R82482, AW972928, AW207335,BF242637, AL031259.1, AL049844.7. HFKFX64 50 566835 1-765 15-779AI202664, AB051500.1. HGBER72 51 826710 1-1302 15-1316 AI827764,AW963463, AV728410, AW964231, AV705122, AW956640, AW963895, AW956641,BF918640, AV702172, AI732151, AW958318, AW021917, AV759632, AW974932,AV702109, AV704541, AV704467, AV705086, AI962030, AV725237, AV711430,AW500029, AW956077, BF760919, AV762633, AV703573, BF804385, AW962006,AW970877, AW302909, AA905613, AV728369, AV763026, AV763058, AV702760,AI188390, AV729337, AA644090, AW969743, AI358384, AV729272, AV702343,BF750422, AW962942, AV726091, AW963497, AV703597, AW973992, AW960468,AV709273, AI305766, AV762454, AW966064, BF911056, BG236628, AW963542,BE063437, BF916934, BF347791, AW410354, AI017251, T05834, AV762982,AV711465, AW955841, AI279417, BE150580, AV762033, AA584489, AA904275,AL040054, AV757607, BE019467, AV758903, AV728425, AV703063, BF347740,AI963720, AW816516, BE294700, AL042373, BE395467, AW963489, BE178609,AA720732, AV712092, AW514662, AW069769, AW731867, AA574442, AV759557,BG029528, AV764259, AF246229, AC007731.14, AC005500.2, AC004033.3,AP001725.1, Z98941.1, AC005391.1, AL353653.19, U78027.1, AL034405.16,AC002301.1, AC004477.1, AL121897.32, AL133396.2, AC018638.5, Z83844.5,AC020916.7, AL035587.5, AL391241.21, AL096791.12, AL096865.28,AC002542.1, AL035422.12, AL117694.5, AC008543.7, AC005037.2, AC005841.3,AC005756.1, AL133551.13, AL109758.2, AL021155.1, AC006241.1, AC011464.5,AC008754.8, AL049643.12, AL138740.9, AC007536.9, AC020947.6, AC006211.1,AC079602.15, AC011495.6, AL136084.11, AL031685.18, AC004771.1,AL031432.1, AC008750.7, AC005701.1, AC008044.4, AC004840.3, AL139022.4,AL135927.14, AC007227.3, AC005821.1, AC004841.2, AC005399.19,AC007204.1, AB016897.1, AC083872.2, U02532.1, AE006462.1, AC011452.6,AL445685.17, AC006958.1, AC061709.25, AF196779.1, AJ009611.6,AP000692.1, AC005484.2, AC006345.4, AC005921.3, AL391262.3, AL512430.14,AC002563.1, AC004815.2, AC006055.1, AC006130.1, AC009756.9, AL139188.14,Z85987.13, L11910.1, Z81364.1, AL023807.6, AC009086.5, AC068799.14,AC004882.2, AK000254.1, AC013717.8, Z98257.1, AC008372.6, AL031295.1,AC000086.1, AC006543.7, AC008622.5, AL157369.7, AL136418.4, AL139054.1,AC008736.6, AC002425.1, AL157938.22, AC002565.1, AC005833.1, AC004824.3,AC010206.8, AC010422.7, AC002133.1, AL132653.22, AL109743.4, AP001693.1,AC008395.6, AL449209.2, U73024.1, AC011514.3, AL133545.10, AB055358.1,AC009488.5, AC010768.9, AC005971.5, AC006451.5, AC005666.1, AP000208.1,AP000130.1, AC006052.5, AL158141.14, AP000665.5, AF010238.1, AC011529.3,AL009178.4, AC006511.5, AL122001.32, AC004150.8, AL021918.1,AL133174.15, AL158207.15, AC007201.1, AC008745.6, AC068533.7,AC009087.4, AP003352.2, AL033383.26, AC002472.6, AC006111.3,AL034417.14, Z82182.2, AC006312.8, AP000842.4, AC007546.5, AL442167.1,AC025447.4, AC009220.10, AL121928.13, AL049868.20, AC006544.19,AL022322.1, AF348209.1, AC010328.4, AC004821.3, AC018926.10,AL034549.19, AC006061.1, AL163285.2, AL049843.18, AC019171.4,AL096840.25, AL359846.11, AC008551.5, AP000251.1, AC007136.1,AF031078.1, AP003475.2, AL354864.16, AC010465.7, AC005330.2, AC010368.4,AL121992.24, AF045555.1, AL450339.5, AL117352.12, AC008101.15,AL445263.6, AF168787.1, AC004913.2, AC004816.1, AC011453.4, U91318.1,AL449305.4, AL109627.18, AL022327.17, AC004765.2, AL049872.3,AC008906.5, AL137918.4, AC025457.5, AC025280.4, AF030876.1, AC012594.7,AC034193.4, AC005546.1, AC005306.2, AL022329.9, AC006483.3, AC007388.3,AP001714.1, AC008397.7, AF001550.1, AC018828.3, AC003007.1, AP000111.1,AL133347.28, AC010358.5, AC009060.7, AF038458.1, AL035696.14,AL031587.3, AL359091.10, AC022382.3, AC005180.2, AL137792.11,AL109801.13, AL121914.31, AF053356.1, AC022211.5, AC009570.13,AL022476.2, AC003046.3, AC004686.1, AP002906.2, AC019205.4, AC006388.3,AC025593.5, AC002115.1, AC011479.6, AC004752.1, AC008269.4, AC004836.2,AC005215.1, AL136304.10, AC003108.1, AL137145.13, Z95331.2, AC011737.10,AL162455.14, AL133246.2, AL034380.26, AP001711.1, AC008403.6,AC002044.1, AC026172.3, AC008079.23. HGBGN34 52 648659 1-514 15-528BF589439, AI127070, W95725, AI829385, W95768, AA732915, AI183361,AW967153, BE351006, BF941150, AI401364, AA321136, AI750875, AA321135,BG115775, AA878380, AA724102, AW962617, AA368761, AA455370, C00920,AC006208.3, AK024425.1, AB029496.1. HGLBG15 53 701990 1-764 15-778AI377951, AA478899, AL521476, AI970420, BF571396, BF690972, AA478780,AI522149, BF571271, AA758425, AW956237, BF692249, AI954716, AW197154,BF576614, AI631753, AI829079, AI765476, H99846, AW274419, AI371713,AI951909, AW769338, BF516230, H19109, AI925973, AI932682, AI138219,AI301748, AI956119, AI755080, AI378559, AI080154, H05933, BF000829,AA031313, AW090099, AA736498, AA852791, AA852790, AA928061, AI699043,AI087918, AI468315, R56048, AI469137, AA248855, AW517996, BF541232,BF838384, Z38380, BF838382, AI760228, R55989, AL136597.1, AC005082.3.HHFEC39 54 609873 1-1288 15-1302 BE178297, BE891680, BE178296, BE178286,BE177969, AI817262, BE178117, BE220165, AW025400, BE178101, AI377829,C06099, BE178000, BF940116, AI422898, AI089906, AA583355, AA971743,AA044947, AA044943, AI076496, AI299481, AI376081, AA427892, H98616,AA618566, AA532381, AI080656, AA884934, AW341785, AA730790, AI139706,AW139974, AA992454, N99650, AI094082, AA483691, AA482694, D62553,AA001089, AI205651, R80152, Z36959, AI692586, AW958955, F10610,AA516076, AI311975, AI313288, AI379372, AI348747, D62481, AI610907,AA513037, AI611925, AI784325, BF054671, D62330, BF054866, BF057878,AA149057, N71679, AA923038, AW969749, BF364372, R43511, D62106, D79281,N83844, T75442, BE168027, BE936283, F13013, BE043482, AI348789, D62153,BE168085, BE178420, BE177858, AL022726.1. HHSDI53 55 862028 1-126315-1277 AW994394, AW151201, AW865905, AW865900, AW865898, AW866014,AW865891, AI755214, AW500684, AI754567, AI754105, AW576251, AL042373,AW613805, AW069227, AI923052, AI733856, AW341978, AA847499, BE062476,BE062478, AW576191, AW023111, AA420546, BG059972, AA449997, AW576490,BF911056, BF526964, BF828714, AV763026, AV763058, AW327624, AV732057,AA579179, AA410788, AI358712, AI634187, AU147162, BF691714, AW979087,AU146620, BE062545, AW516255, BF771349, AW328202, AW500029, BG250044,BE676019, AI792529, AW131356, AV703785, AW963663, AV763550, AI249688,AW958962, T74524, AW502873, AV695478, AW474168, AV762430, AI457313,AA828834, AI080307, AI962030, AV759518, AW275432, AW819125, AW026305,BG110162, AV730440, AI421950, AA513851, AI419337, AV730986, AW851405,AU144540, AW964231, AV741914, AV760508, AI038304, BE968744, AL135377,AI636734, AI361090, AV732950, AV754716, AV762009, BG036665, AI345654,AA578621, AW970896, AW021886, AA515048, AI569100, AA557911, AA501461,AL109936.10, AC078815.22, AL079335.29, Z69917.1, AP001760.1,AL136172.16, AC021752.5, AC009470.4, AC009269.6, AL049856.1, AP001169.1,AC008946.6, AC025262.27, AL356805.5, Y18000.1, AL162426.20, AC010271.6,AL121808.4, AL035587.5, AC005694.3, AC011462.4, AL355343.18,AL122001.32, AD000685.1, AC004020.1, AL158198.14, AC036103.8,AB050050.1, AC009570.13, AC011489.6, AC018636.4, AL391280.15, U63721.1,AC025166.7, AC004815.2, AL137128.4, AL109984.14, AC004797.1, AL133349.7,AC034242.5, AC005004.3, AL024498.12, AC010469.7, AC005529.7,AL138824.19, AC004805.1, AL136418.4, AL139054.1, AC017078.8,AC011737.10, AC083871.2, Z97632.1, AL359400.4, AC010654.8, AC005216.1,AC005052.2, AC018690.5, AL031670.6, AC007226.3, AC005932.1, AP000114.1,AP000046.1, AL158207.15, AL121594.6, AC016995.4, AL034372.33,AF064861.1, AC008745.6, AP001717.1, AL136137.15, AF228703.1,AC068799.14, AC074121.16, AP000744.4, AC005086.2, AC007055.3,AL132653.22, AC011445.6, AC011450.4, AC004150.8, AC008760.6, AC012450.9,AF047825.1, AC006451.5, AC005103.3, AC004975.2, AL139316.5, AC005089.2,AL135927.14, AC007227.3, AL121972.17, AC034251.5, AC025593.5,AC011470.5, AP000356.1, AL034548.25, AC021876.5, AC008736.6, AC005725.1,AC010279.4, AC004647.1, AC087071.2, AC002115.1, AC006552.7, AF003626.1,AL137119.26, AC005338.1, AC020916.7, AL133240.3, AL161896.16,AL033378.12, AL359397.3, AF042090.1, AP001725.1, AL161727.15,AL391259.15, AC005200.1, AC009077.7, AC008962.8, AP001752.1, AC004867.5,AB053170.1, AL117381.32, AC010205.5, AC007722.9, AC008440.8,AL354707.17, AC074013.5, AC006449.19, AC007993.15, AC005029.1,AC005180.2, AC010605.4, AP002852.3, AP001727.1, AC004491.1, AL109614.28,AC009068.10, AC006348.3, AL096677.21, AC027319.5, AL445483.13,AC008649.6, AP000555.1, AF001549.1, AC011510.7, AC002316.1, AC006203.1,AC008403.6, AC004755.2, AL358815.12, AC006000.2, AC027644.9, AC005098.2,AL159159.21, U78027.1, AC073838.6, AC002126.1, AC004771.1, AL121653.2,AC016587.7, AC005880.3, U91323.1, AL121601.13, AC005924.2, AP001053.1,AL022312.7, AC007388.3, AC004967.3, AL096840.25, AC004166.12,AL354932.26, AP001718.1, AC011465.4, AL353679.18, AC010463.6,AL121992.24, AC020754.4, AL049610.9, AC006441.13, AC006483.3,AC005620.1, AL136039.4, AL031295.1, AC008280.4, AC008397.7, AL161907.17,AL035422.12, AC004821.3, AC009220.10, AC004895.2, AC009509.7,AL137818.3, AC004125.1, AF031078.1, AC002352.1, AL356020.3, AC008474.7,AC002546.1, AL159997.14, AC007565.1, AL117382.28, AP001631.1,AC000082.4, AC007011.1, AC004813.2, AC008392.6, AF030876.1, AL137005.6,AC013719.8, AC005779.1, AC002401.1, AC002090.1, U91321.1, AC025280.4,AL445222.9, AC008569.6, AP003475.2, AL031228.1, U95090.1, AC016742.10,AL359711.18, AC068533.7, AL138836.15, AC004922.2, AC004840.3,AL021579.1, AP000694.1, AC005522.2, AF111167.2, AL022320.23,AL136220.14, AL031311.1, AL138741.13, AL354889.14, AC007664.12,AL356747.18, AC000003.1, AC007324.55, AL033397.7, AL359552.16, Z83844.5,AC021868.17, AL136170.12, AC016894.7, AL136228.8, AC007283.3, Z83308.1,AC005236.4, AP002342.3. HISBA38 56 561711 1-1044 15-1058 AA465219,AW968392, AA465303, AL042753, AV759518, BF868994, BG029528, BF725761,AI963720, AL037683, AA129746, AL041924, AV682003, AV763460, AL138455,AL079734, AV757289, AI282253, AA669155, BF827410, BE252421, AL042853,AV760391, AA760655, AL079447, AV760389, AV762395, AA551105, AI049643,BG164617, AL137020.13, AC006581.16, AL122023.3, AL022322.1, AC007436.1,AC004706.1, AC068722.6, AB045357.1, AL035552.9, AP002532.1, AC022324.5,AL121869.19, AL109752.13, AC020559.4, AC008901.5, AC006017.2,AL354943.9, AC073897.6, AL353752.6, AL121823.12, AC005798.10,AF117829.1, AC018719.4, AL138832.10, AC010722.2, AL358612.8, AL163206.2,AL138879.10, AC090710.16, AC005250.1, AL365222.24, AL163213.2,AL133517.11, AP000493.1, AC005539.1, AL139150.12, AC003029.2,AC008766.4, AC009316.3, AC005002.2, AL133244.1, AL137818.3, AL031433.4,AC010081.4, Z97985.16, Z94722.1, AL590611.7, AC025253.20, AL137918.4,AL121652.2, AC073881.3, AC004998.2, AL355834.4, AL450345.6, AL163201.2,AL137840.12, AL049835.3, AL355143.17, AC006466.3, AC002457.1,AL132827.2, AC090957.1, AL049697.9, AL109939.13, AL133373.5, AC068723.5,Z98754.1, AL356278.8, AL355535.14, AC087315.21, AF212831.2, AL023876.2,AL359234.4, AL390205.17, AC007683.5, AC010140.3, AP002448.3, AC034148.9,AC027129.5, AL357272.10, AL023279.1, AC012372.4, AL022152.1, AC006287.1,AC006313.1, AC019155.4. HJPBK28 57 638191 1-975 15-989 AL514305,AW293236, AW293727, H05931, AA641023, R38502, AI866873, AI401672,BF541631, AA809622, AA744709, AW300626, R60656, AW300632, AI559711,AW300658, BF591678, BF059502, AA433907, BF477999, AI143872, BF111052,AA923560, AI023411, AI580975, AW192719, AW080271, AI493147, AW242303,AW026654, AI569455, AA916462, AI281175, AI278657, AI419344, AI278903,AW305204, AI863945, BE856987, AA947586, AI954274, AI825314, BE551611,AU151920, AI422001, AI468214, BF061087, AI769184, AU159402, AI921752,AI984143, AW117197, AA446546, BE503412, AU153554, BE501613, AI656177,AI075679, AI459572, AI739249, AU158932, AI962781, BE888552, AI340045,BE328347, BG120198, AW952038, AA933635, BF870463, BF828427, BE620781,AA304007, AA446399, AL137969, BC004415.1, BC007774.1, BC006291.1,AK023216.1, AK027624.1, AB040953.1, AB045381.2, AF216494.1. HKABU43 58838573 1-1905 15-1919 BG035820, BG163860, BE779136, BG032640, BE546300,BG251357, AI890545, BF798002, AW957817, AW957894, BG164329, BE897914,AI064868, AW439699, BE868957, AI628884, AI538687, BG117638, BE075026,BE075028, BE877956, AI890859, AW241402, BF057808, AI962251, BE672376,BG254061, AI655998, W76094, AW593934, AW206368, AW070698, BF592891,BF855200, AI913939, AW242743, BE892303, W72889, AW510467, BE502137,AW852201, AW468485, AW242300, BE073158, BE073145, AI370901, AA076346,BE075023, BF761114, AI269861, BE927867, Z19251, BF229820, AA912859,AI962408, AA449269, BE869764, AA449405, AI125399, AI766912, BG230901,BF761369, R82858, BE927921, AI651447, AW852191, AW874171, AA313460,BE268347, AI440431, AW603030, AA322088, BE503487, AA373986, BE927954,BE677880, BE816387, BF679224, BE816422, BE927027, BF514420, BE297845,BE390905, BE535739, AV762904, AA564527, H29863, BE743929, AA369997,AA370398, AW957044, AA852197, AB018262.1, BC003633.1. 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BC001206.1,AL133565.1, AL133112.1, AK000486.1, AK026532.1, BC004923.1, BC008387.1,BC002539.1, AL110196.1, BC008899.1, AK026642.1, BC004265.1, AB060837.1,BC003110.1, AL133081.1, AK026959.1, AL136915.1, BC003548.1, BC008417.1,AL353935.1, BC006412.1, AK026506.1, X53587.1, S78214.1, AK026608.1,S61953.1, AF078844.1, AF100781.1, AF358829.1, AF097996.1, AL133093.1,BC006509.1, AK025967.1, AK026480.1, AB063070.1, AK024545.1, BC002643.1,AF218014.1, AL390154.1, D89079.1. 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HNECL22 65 799541 1-2696 15-2710 AI114773, AV708528,AI174910, AI114822, AI065060, AI305115, AI207643, AV701391, AI114681,AV709313, BE221818, BE677761, AW953876, AI743950, AW953822, AI589902,AA886890, BG236178, BF591137, AW516553, AI027819, BE550036, BE675476,BF684928, AI193143, BF447812, BE551855, AW003234, BF115226, AI871594,BF589312, AW968116, AF074701, BF115270, BG149200, BE669558, AI636074,AI186791, AA453707, BE348795, AA459528, AI223053, AW293894, AI765135,AA465507, BF000591, AA837316, AI342451, AW043650, AI344323, AI015206,AA906314, AI675107, AI374588, AW629315, AI367638, AI285946, BE348663,AI126552, AA459297, AI082415, BG058812, AA827913, AI186011, AI493737,AA579658, AI439599, AI064752, AI580179, AI191379, AA057245, AW978758,AW197214, AI273440, AI719270, AW084532, AW167688, AW614430, AI400741,AI128538, AI261492, AI936977, AI694244, AI392728, H56267, BF116001,AI215180, AI091065, AA478846, AI141102, AI439574, AI262021, AI439573,AI376357, AI347510, AA477065, AI278176, AI094135, AI076690, H04614,AI439592, AI065009, BE675923, N70205, AW408556, AA447775, AA228012,AI762994, AW953823, N90124, N91093, AW016927, AI914209, AA116051,AI092840, AW661858, N69573, AI246680, AI694653, AI863991, AA779767,N72602, AI912117, AA313800, AA962551, H93303, H51282, BF929847,AI346284, AI521889, R63715, AA342837, AA479942, BF732747, AA465396,R74142, AI252135, AA454473, R92925, N77670, H04592, AI141789, AI816723,AI204646, R63761, W78774, N58304, AI655820, BF062215, W02412, BF512624,BF855761, H78806, AI341922, H73792, BF591907, AA481390, T50082,BF834392, BF742347, H73779, R74118, AI630220, AA811993, N39344, R96556,AA939056, H56071, BF989488, N63741, H51859, AA927199, W26847, H72984,R91506, T50066, H66255, AA908836, AI830053, AI351268, H49848, AI858083,H92164, BF814618, AA333775, AW303217, AI864385, AI382793, AW301915,H27595, H88107, AI114652, AA813528, H61504, AW952524, Z20785, R91276,R67005, H73791, AI088971, R65623, T50019, R68277, AI925217, AA683337,AW385241, H88106, AI858078, N52417, AI612859, AI201887, H40449, N94063,H66660, H71977, AW196541, H69793, H66661, AI133036, AI381768, AA369715,R74028, BF446051, AW005811, AW151526, AI167780, AI217406, R96511,AA627870, R74049, H92165, H91341, AI073965, AI133696, AI127197, H91424,H27525, AA419172, AI310713, AA410653, R68314, AI127450, T50002, W04455,H62478, AA031272, N76050, AA916572, AA370598, BE856933, AY032628.1,AF155660.1, AF223466.1. HNFAC50 66 815676 1-1428 15-1442 BF888349,AW071725, AA743534, BE783671, N57590, N57604, AW305107, AV750698,BG003734, D45491, AA485566, BF358205, AA504633, AW026010, AW025529,BE512979, AI885090, AI475932, BF108880, AW050607, AA886335, BF368455,BF109416, AA662803, AI375435, AI832600, BE906368, AI393408, AI056120,AI244837, AI056614, AW449834, AA657904, AA922036, AA643750, AA878578,AW197722, AW058170, AW748250, AI560410, AA485405, AI749095, BF436871,AI720931, AI446208, AF308287.1, AL137403.1. HNGEA34 67 815678 1-108915-1103 AP000531.1, AC003064.2, AC002471.5, AC005374.5, AL512624.4,AL391119.8, AL132657.33, Z83839.1, AC008443.8, AL049849.1, AP001229.3,AP001214.3, D87003.1, AL133173.19, AC026273.7, AC018696.4, AP000547.1,AL078472.3, AC002041.1, AF254983.2, AL163201.2, AC013734.4. HNGIV64 68561572 1-1033 15-1047 AA595803, AV653403, AI886084, AV684943, AV695480,AI363970, BF848469, AW380640, AV651029, AL049541.24, AC009475.4,AC020910.5, AC008556.5, AC067941.7, AC004967.3. HNGKT41 69 836061 1-103415-1048 AW862214, AW859811, AW862215. HNGNO53 70 836063 1-811 15-825R37935. HNHCT47 71 634691 1-607 15-621 AA469441, AA328289, AW972888,AW968156, AA502813, T09124, AI821722, AI732162, AI821172, AI792063,BE146613, BE146622, AU119400, AU119141, AA736713, AA572983, AL120694,BE392609, BF676104, AA598663, AI798242, BF346320, AA525409, AA834799,AW970987, AA525174, BE747883, AI636734, BF129921, BE395693, BF869362,BE677425, BF345228, BF345114, AA502536, BF747666, AA569179, AA482323,BE537881, BF871505, AV695478, BF340209, AI824589, AI567106, AV719084,AV763603, AA364869, AL079869, AA608741, AA468456, AA652059, AI309943,AL046620, AL041895, AA621838, AL031728.12, AC018828.3, AC022383.3,Z84480.1, AC011737.10, AL135839.15, AC083884.6, AC025594.5, Z83844.5,AC002470.17, AC007308.13, AL513008.14, AC009228.4, AC007597.3,AC006388.3, AL096841.6, AF109907.1, AL021546.1, AL133448.4, AC005098.2,AC004694.1, AC011461.4, AL133245.2, AC004815.2, AC004166.12, AC009488.5,AC004846.2, AL161756.6, AC009137.6, AC004030.1, AL157823.9, AL031685.18,AC015801.25, AC002369.1, AC020931.5, AC022384.4, AC010463.6, AC005803.1,AC018712.5, AC008569.6, AL035704.9, AL118502.38, AL049760.26,AC010378.6, AL353193.7, AC008755.6, AL138759.20, AC000360.35,AC007883.3, AC034193.4, AC007057.3, AC009475.4, AL049872.3, Z84486.1,AC005089.2, Z93020.1, AC011490.7, AC005871.3, AC009077.7, AC018808.4,AC007384.3, AC008745.6, AL132768.15, AL590762.1, AC008481.7, AC020954.6,AC010316.6, AC004967.3, AL356257.14, AC005972.1, AL096774.9, L44140.1,AC005052.2, AF031078.1, AL121586.31, AL391384.18, AL353748.13,AL133371.3, AC005081.3, AF030876.1, AC004073.1, AC011736.4, AC005067.2,AL159168.15, AL121920.21, AC013717.8, AL365364.19, AL022476.2, Z97184.1,AC004887.2, AL161670.4, AP001781.4, AC010319.7, AC002126.1, Z93015.9,AC009060.7, AL391827.18, AC026765.22, AC016027.15, AC007685.2,AC012170.6, AC008655.6, AL031651.33, AC016830.5, AC008551.5, AC005080.2,AC008040.7, AC004965.2, AC008521.5, AC011446.6, AP002007.4, AL133294.10,AL356915.19, AL157951.5, AC004760.1, AL121890.34, AL355871.5,AL136170.12, AC007917.15, AF053356.1, AL031681.16, AC011465.4,AC010999.6, AC084864.2, AL049576.19, AL132775.29, AP001760.1,AC004685.1, AP001725.1, Z75407.2, AC003070.1, AL354864.16, AC007881.4,AP000424.3, AC010271.6, AC010742.4, AL162430.15, AP002340.3,AL079342.17, AP000553.1, AC005841.3, AL096700.14, AC011495.6,AL137853.12, AC004799.1, AC025588.1, AC008267.6, AC011462.4, AC005914.1,AC087071.2, AC022154.3, AL139415.10, AC003043.1, AL121926.24,AC004491.1, AC011005.7, AL117381.32, AC026805.5, U91323.1, AL034422.24,AP003466.2, AL049709.18, Z68273.1, AL359092.14, AC005207.1, Z93930.10,AC008266.3, AC004382.1, AC007388.3, AC009131.6, AL136981.22, AC005082.3,AL122023.3, AC083855.2, AL117350.12, AC018801.4, AL136305.14,AC010328.4, AL049761.11, AC000025.2, AC010422.7, AC078818.19,AC026866.8, AC011811.42, AC007842.1, AC005200.1, AL355392.7, AC008389.4,AC004883.2, AL139801.17, AC011460.3, AL160264.22, AC020552.4,AC011472.7, U47924.1, AC018751.30, AB013139.1, AC007318.4, Z83838.2,AL121897.32, AL133153.3, AP001753.1, AL096840.25, Z93017.6, AP000349.1,AC011247.10, AL049869.6, AC004782.1, AC090527.3, AC006088.1, AC020928.6,AD000812.1, AC011479.6, AL022721.1, AC018695.6, AC002430.1, AL139100.9,AC004854.2, AL132712.4, AL139002.18, AL162426.20, AL161445.10,AC007546.5, AC000026.3, AL109797.18, AC020983.7, AC020913.6, X69907.1,AC005620.1, AP000350.1, AC010205.5, AF224669.1, AC058791.3, AP000352.2,AF011920.1, AC004703.1, AC018711.4, AC008623.4, AC006946.20,AL035689.26, AC007383.4, AJ400877.1, AC004953.1, AL035420.15,AC023880.5, AL159140.4, AD001527.1, AC002394.1, AL035072.16. HNHKI74 72777856 1-803 15-817 AV728309, AV707794, AV706891, AV725423, AV704740,AV709273, AV702172, AV701844, AV734690, AV683012, AV705525, AV734974,AV703460, AV702625, AV702760, AV705299, AV732961, AV726754, AV702857,AV706410, AV728425, AV764444, AV704467, AV762687, AV759295, AV725431,AV707135, AV762870, AV727065, AV702659, AV759719, AV759507, AV762973,AV761810, AV706448, AV760057, AV761107, AV729881, AV759717, AV761489,AV761613, AV729947, AV707230, AV762505, AV722143, AV755512, AV763558,AV763410, AV704541, AV761412, AV702343, AV706814, AV709625, AV701499,AV762015, AV760106, AV703137, AV707043, AV762706, AV762631, AV707067,AV763298, AV762242, AV706025, AV733894, AV762852, AV764465, AV756702,AV709025, AV728138, AV701739, AV757334, AV705436, AW963592, AW955724,AV703844, AV704497, AV707654, AW962651, AV729090, AV702738, AW962006,AV755888, AV760048, AW957644, AW962942, AW963486, AV762009, AV761661,AV709897, AV729272, AV708388, AV712770, AV702109, AV711430, AV762082,AV705086, AV763847, AW958318, AV760908, AV725558, AV764034, AW963489,AW961593, AW966064, AW963552, AV701613, AW960468, AW956077, AW963463,AW962444, AV762067, AW953953, AW962268, AV727583, AV756508, AV703218,AV759768, AW961330, AV757526, AW963625, AV729411, AV705020, AV688823,AV710733, AV760724, AV683668, AV759352, AV763444, AV705532, AC002302.1,AL031273.1, AC005067.2, AC003982.1, AL022165.1, AC005225.2, AP001711.1,AC002470.17, AC012476.8, AC009060.7, AF196969.1, AC007917.15,AL354932.26, AC004148.1, AL359091.10, AC006059.3, AC005207.1,AC006312.8, AP001689.1, AC004824.3, AC007000.2, AC004840.3, AC011497.6,AC005229.1, AC006077.1, AC006480.3, AC005058.1, AC022543.2, AC004263.1,Z82184.1, AL445483.13, AC005632.2, AF134471.1, AC005859.1, AC002477.1,AF258545.2, AL024498.12, AC010458.5, AL136418.4, AL139054.1, AC002425.1,AC003007.1, AC006111.3, AC003692.1, AL096763.14, AL357497.17,AP001714.1, AL109743.4, AL118497.9, U15177.1, AL391384.18, AC005282.4,AC004089.25, AC011455.6, AP000089.1, AL132640.4, AP001630.1, AP000300.1,AC010319.7, AL136131.15, AC009137.6, AC010679.6, AC005015.2, AC018644.6,AL049761.11, D87675.1, AC007308.13, AL161779.32, AC005726.1, AC008599.6,AC009470.4, AC006121.1, AC011479.6, AP000113.1, AP000045.1, AF222686.1,AC004659.1, AC004000.1, AL158040.13, AC008745.6, AC004878.2,AL121914.31, AC004166.12, AC018755.3, AC019014.1, AC007003.4, U17576.1,AC010326.6, AC005052.2, AL354707.17, AC006038.2, AL008718.23,AL022476.2, AP001725.1, AL031282.1, AC007938.1, AL133448.4, AC018663.3,AC007216.2, AL117258.4, AC004867.5, AC006014.2, AC008891.7, AC007684.3,AC011489.6, AL353716.18, AL022302.10, AF312915.1, AC020906.6,AL354696.11, AC007991.7, AC007151.2, AC013726.7, AL359828.13,AL157838.24, AC005089.2, AC020928.6, Z68273.1, AC007021.3, AL161893.24,U91323.1, AC004149.1, AC008068.4, AP001717.1, AC010956.12, AL356214.20,AC020558.4, AL118520.26, AL139809.16, U67810.1, AL137162.25, AC003956.1,AL590109.4, AL049758.11, AL365364.19, AL392003.11, AL513366.11,Z97054.1, AC008395.6, AC013449.8, AL121983.13, AC004099.1, AL445687.5,AC004797.1, AC006329.5, AL158172.5, AP001695.1, Z95114.19, AC006449.19,AC008747.5, AC010388.5, AL049830.3, AC007052.4, AL135927.14, AC007227.3,AL022323.7, AC025097.41, AC005288.1, AC005808.1, AC078818.19,AP001716.1, AC005768.17, AC008551.5, AP000116.1, AL161630.12,AC006433.18, AL138920.11, AC007546.5, AC006511.5, AC004971.3,AC004851.2, AC008736.6, AL139113.21, AB038653.1, AC005372.1, AC005546.1,AC004913.2, AC008521.5, AC005291.1, AC005081.3, AC005255.1, AC007722.9,AL109613.11, AC005080.2, AC006120.1, AF141309.1, AL161936.15,AC005412.6, AL049713.20, AC018841.3, AC004106.1, AC007679.4, AC090426.1,AC013436.5, AC008166.2, AC004965.2, AC005098.2, AC008753.8, AL161757.4,AC008622.5, AC016691.10, AL136123.19, AC010519.6, AP002342.3,AC055731.22, AC006345.4, AC007066.4, AL158830.17, AC002544.1,AC011465.4, AC005519.3, AP000210.1, AP000132.1, AL021877.1, U95739.1,AL137017.9, AC005488.2, AC022211.5, AL355480.22, AL031587.3, AL031289.1,AC005995.3, AL353597.20, AC011462.4, AL138762.20, AC010976.5,AC006538.1, AC002310.1, AL161747.5, AL050332.15, AL034420.16,AC009477.4, AC005695.1, AL356481.16, AJ277546.2, AL138725.19,AL445237.16, AC006208.3, AJ009613.4, AF288742.1, AC007282.4, AC011443.6.HORBS82 73 638293 1-1111 15-1125 AA716165, AW014086, AI675797, AI915560,AI093476, AI619556, AA346257, BG170965, AI674463, AI656676, AW962578,H26720, F32296, F33070, F24055, F23333, F32966, AI370391, AI446003,AI560806, AA857847, AW130863, AI282355, AI241901, AI889818, AI611743,AW243878, AI619502, AI630928, AI953765, AW083804, AA504514, AW081179,AA814782, BE967273, AI554821, AI620056, AI285735, AW262983, AI355849,AI245332, AI018686, AI635464, AW183620, AW020095, AL036187, BE966547,BG105445, AL036509, AI680498, BF970652, AW149869, AI433611, BG181012,BF914091, AI271796, BE621256, AV702932, BE962857, AI824557, AA555145,AA449768, AL513697, AW089009, AI368579, AW020592, AW130403, AL514823,AW022494, AW020288, BE785348, AL513817, BG108350, AW073996, AA937558,AV724929, 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AL121952.18,AL133062.1, AL136979.16, U91329.1, AF095901.1, BC007034.1, BC002958.1,AL080060.1, BC007389.1, AK026395.1, AL356747.18, AL590076.3, AF022813.1,BC004925.1, AC008897.7, AL137461.1, AL080110.1, BC006196.1, AL117585.1,AL136843.1, S69510.1, AF044323.1, AK026526.1, BC002574.1, AL355143.17,AL157878.11, AC020956.6, AF358829.1, AF028823.2, AF162270.1, AB060893.1,AK026518.1, AF177336.1, AK026793.1, AK026630.1, BC006287.1, AL136586.1,AF321617.1, BC006465.1, AK000647.1, AK026649.1, AC005968.1, AK000450.1,M19658.1, D83989.1, AL049464.1, AF073483.1, AF217989.1, AF217966.1.HOUDE92 74 580866 1-1270 15-1284 BE736091, BF237553, BE781264, BF686547,BE313480, BE872070, BF313936, AI138711, AI348027, BE502126, BE258631,AA524244, AW873570, AI982983, AI367855, AI052179, N90758, AA325647,AW419076, AW873111, AW008195, AI304671, AI367495, AW964887, AI609692,AA019213, AI279349, AI581275, AI224904, AI141287, H14110, H41440,AI017367, H29060, H29163, AA482386, AI471043, AI742262, AI262559,H52568, AA872715, 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BC006195.1, AF227198.1, BC004958.1,BC007326.1, AB060912.1, AF090934.1, AF090943.1, AL137488.1, AK026744.1,AB060908.1, AK026741.1, AB055352.1, AF218034.1, AL050146.1, AL353956.1,AL136805.1, AK026600.1, BC008365.1, AF271350.1, AL162002.1, AL117648.1,AL136884.1, AB063070.1, AK000445.1, AL049430.1, AK026045.1, AK026613.1,AB063088.1, BC006180.1, AK027146.1, AL122098.1, AL512689.1, M92439.1,AL110280.1, AB062750.1, AK026542.1, AK000718.1, AF348209.1, AL049464.1,AL049339.1, AF217966.1, AL137271.1, AL137529.1, AL096744.1, AK000323.1,AF111847.1, U91329.1, S78214.1, AF026816.2, BC008382.1, AF091084.1,AL136692.1, AK026057.1, AL133640.1, AB060879.1, AK025084.1, AK026649.1,AB060825.1, AL137574.1, BC003548.1, AL050108.1, AB047904.1, U78525.1,AY033593.1, AB048953.1, AF104032.1, AL096751.1, Y16645.1, AL080074.1,AL512684.1, AK026583.1, AL137560.1, BC001967.1, AB056427.1, AL049466.1,AF202636.1, AK025092.1, AK027213.1, AK025312.1, S77771.1, AF056191.1,AL136787.1, AK000486.1, AK000247.1, AF230496.1, AL133560.1, AL137463.1,BC000094.1, AL359583.1, AB055315.1, AK025209.1, AL137538.1, AL133075.1,AL050149.1, AL136892.1, AK000690.1, AL050092.1, AK026624.1, AK026506.1,AL137521.1, AF061573.2, AK026462.1, AK026532.1, BC004926.1, S61953.1,AK026408.1, AK000614.1, AL512750.1, AK027114.1, AK024588.1, AB060826.1,AL049938.1, AK026528.1, AL117587.1, A8050510.1, AB048919.1, AK026626.1,AL133081.1, BC004951.1, AL050172.1. HOUHI25 76 888279 1-1235 15-1249AW274757, BF979499, BE875104, AV728303, BF671975, AV727326, AW631495,BF983857, BF248008, BF115795, BF212520, AV717938, BF571136, AV728044,AA976644, BF679046, BF477635, AI907366, BF570689, AA903720, AW972361,AA524665, BE220972, AI984786, BF979139, AI692731, BF213370, AI907373,BE439966, AI268254, AI907368, H08416, BF700421, BF541919, AV705494,AW978976, AI332994, BF540780, BF247753, AI907374, AA826200, AA701660,AI656122, AI657191, BE763093, AA936326, BF572170, BF131794, BF195177,N79377, AV715209, AI950823, BF093269, N88408, BF439990, BE159589,AA772723, N86348, AA399432, BF575806, BF984268, AW206085, AI268253,AI421859, BF680498, AI916469, BF344634, AI420669, BF670000, BC008478.1,AF126020.1, AC004839.1. HPCAL26 77 762822 1-3083 15-3097 BG164171,BG171313, AW338908, BE327883, BF058325, BE856282, AL525344, BG027433,AA621714, AL047905, AW780148, AI633775, BE973735, AW438611, AI755212,BF381979, AW337238, AI337968, AI963595, AW572336, AA432021, AW471145,AW069566, AA448477, AI936887, BF108841, AI829408, BE748629, AI042324,AI955816, AI421409, AA758227, AA814190, N91448, BF030663, AW192439,AI683517, AA417975, AI129364, AI561083, AA418135, AI088536, AW628520,BE327874, W72280, BE878275, AI348236, AI088467, N26180, AI628017,AI066421, AI346288, AI142951, AI308778, AI446338, AA458899, AI078536,AI346382, AI753070, AA923036, AI431409, AI087120, AI341640, AI567761,AI371263, AI754690, AI285250, BE619821, AA630948, AI354829, BE620033,AW294799, W45027, AI902379, AI537262, AI866883, N27411, BE876666,BF338393, AI963351, AI081820, BE395375, BE620777, BE906942, AI811301,AI627940, AL538418, AA602460, BE548617, BF038519, AW205903, BF893012,W76307, AA701166, AL525384, AW023777, AW956752, BE122762, AA128212,AI094190, BG163634, AI371264, AW856743, AW380612, R81003, BE905099,N23359, BE619502, AI589929, BE905025, AW469305, AI254707, N67744,BE619375, AA961234, BE906749, BE784570, BE909607, AW387716, BE904894,BF695306, W25857, AA134565, AW044064, AW802015, BE673511, R76732,AI392841, BF509258, BE503655, BE880509, AI299995, AA304323, AI074674,BE788330, AI086914, AA383490, AW630488, AA977524, AW802237, AA296648,AA431796, AA047280, AA813746, AW236745, AA193605, AA127172, AW080334,AI696769, BF437027, BG167009, AW361256, BE938690, R76394, BE218539,R39674, BF475923, BE843065, AW819110, AW819102, R39598, R80801,AI540488, AA134564, AA193568, AW818988, AI245052, N55215, BG120706,AA307251, BG119547, BE843137, BE816369, AW957969, AA776346, AW819052,C01782, AW517411, AI906011, AA303350, T24798, BF799939, AW603344,BE748082, W39532, BE543246, AA047141, BF800032, N34692, BE168974,AA340956, BE620236, BE937574, BE122763, AW818992, AA304405, AF193611.1,BC001278.1, AF015287.1, AL136914.1. HPEBA84 78 753957 1-1146 15-1160AV702197, AW964983, AI283912, AV688589, AA679863, R77836, AA112690,AI686145, AA342049, AA658167, AA112689, AA640275, AA342050, BF876992,AL161799.19. HSAVA08 79 580870 1-1047 15-1061 AA523633, BE562634,AI828787, AC008738.6, AC005722.1, AC020908.6, AC090942.1, AL035685.21,AL049843.18, AC027124.4, AC005089.2, AC084865.2, AC002465.1, AC034251.5,AC022211.5, AL050335.32, AC009123.6, AC005320.1, AC002365.1, U91323.1,AJ251973.1, Z95115.1, AL359792.3, AL133545.10, AC011444.5, Z95152.1,AC002378.1, AL139352.16, AL122035.6, AC006160.9, AL109825.23,AC005015.2, AL162430.15, AL033526.24, AP000697.1, AC005328.1,AC007907.2, AL353653.19, AC010463.6, AC007637.9, AL161779.32,AC008755.6, AC018644.6, AC002996.1, AP001712.1, AC005756.1, AC010363.6,AC005225.2, AC002544.1, AC002470.17, AC003684.1, AC011480.3, AC007277.2,AC010878.4, AC011491.5, AL022394.3, AC068799.14, AL137918.4, AP001726.1,AC006130.1, AL138827.16, AC073864.28, AL034420.16. HSHAX04 80 8121781-1273 15-1287 AL518245, AL513560, AL518244, AL527318, BE796445,BE729339, BE794797, BE729215, BF570366, BF969527, BE513213, BE797077,BE409736, AV715789, BE729781, BG165883, BF569872, BE730249, BF025786,BF971834, BE747502, BF974060, BF127469, BE394313, AI192460, BE277674,BE387113, BE408890, BF243019, BF685280, BE252479, BE274070, BE386787,BF686552, BE408335, BG179144, BG253243, AI193657, BE383115, BF109402,BE727996, AI978927, BE747511, BE313903, BF027209, BE394458, BG167026,BE387005, BE257613, BE395496, BF127655, AI819133, BE408659, AV701134,BF975755, BE297737, BE276425, BE257900, AW467999, BE409043, BF129135,BE621412, BE251025, BF132821, AV701355, BE736137, BF684777, AA151920,BF205110, AA476567, BE393897, AI589910, BE393107, BE266145, BE390224,BF132684, AA746035, AW406080, BF438288, BE745519, BF238211, BE258291,BE385352, AA224497, BE789268, BF237992, AV701339, AA476450, BE389845,AA922493, AA058904, AV712372, AA809660, AI972258, BE390228, AA031495,AI128546, AA033810, AA934757, AA031586, AI167713, BG111292, BE266333,AV736079, BE294483, BF132501, AI086942, AL513559, AI749671, AA904234,BE410720, AW069373, AA535057, BF835180, BF000188, AA224434, BF591243,AA037753, BF856066, AI189102, AA338222, AI284100, AI198266, BF239384,BF834463, H45086, AI079772, AI620932, W87609, C75448, AI498905,BE621931, AW272369, C75433, H45164, T68206, C75434, AA039244, AW473012,C75456, AA043857, AA627969, AA961372, AW192043, BF759521, AA643805,BE048627, AA916520, AU117291, AA327300, BF836781, AI247228, BF836803,AA480241, AA768298, AI187734, BC004898.1, BC008451.1, AF104012.1,AF042385.1, AF042386.1, AF104013.1, AL049824.4, AL033526.24, T57534,H45163, N79482, W87900. HSKDR27 81 580874 1-748 15-762 AI984221,AI740960, AW015044, BF591015, W80440, AI141908, AA627626, AA969950,AI581286, AW613262, AW170703, AW073992, BF338322, AA480836, R52038,BF436470, AW074677, AA994760, BE219883, AI381244, BE677262, R52037,BE327304, R49984, AW304136, BE042923, R47846, AA359428, AI538725,AW836013, C00374, BE550516, AA887620, AW873686, BG107838, BE048302,H50794, AI961625, W79036, AF177941.1. HSQBF66 82 560726 1-1010 15-1024AL043876, D44625, BE674949, AA573644, AV652267, AA579352, AA745570,AA579353, AI732225, AA085683, AL356791.9, AL031985.10, AC006452.4,AC022007.3, Z68885.1, AL096838.1, AL513131.1, AL121890.34, AC026172.3,AL135911.16, AL122035.6, AP001208.3, AP000907.5, S83170.1, AC024163.2,AC025438.5, AC091118.2, AC002299.1, AL049795.20, AL161449.7, AC004458.1,AC000118.1, AL031662.26, AP001537.1, AC010530.7, AL163218.2,AC007676.19, AC005098.2, AF235097.1, AL035690.10. HSRFD18 83 8407711-1875 15-1889 AL037444, BE889424, BF439488, BF446681, AW297772,BE644962, AW295194, BF740081, BF813145, BE466328, AA716418, BE675824,BF196138, AI280149, AA814882, AA813632, BE221432, BE677733, AA358821,BF246362, BF700198, AW452195, AU144490, BE220601, AA761963, AA658222,AA327922, AI123037, AI473112, AW390382, BF992291, BE928864, R99503,AA055144, AU119961, AA182647, AW390381, AU130604, AA182483, AW390436,BF693283, AA054934, BF849246, R98214, AU117739, BF993158, BF002983,AA248903, AA179387, AA182760, AA934941, AI474620, BF670121, BF858341,BE928859, BE150427, AI912621, AA938230, BF919684, AF288393.1,AL096819.17, AK023095.1, AK000945.1, AL117441.1. HSWBE76 84 751308 1-86015-874 BE620901, BG170181, BE620502, BE905496, AA195064, AI674742,AU150515, BE222944, BE965160, AW071814, AU147333, AW081850, AU148556,AI433777, AA708102, AI625507, AU150042, AI333540, AI022464, AW024603,AI423210, AA195011, AA708100, AU160595, BF939994, AI365587, AI268519,AI540265, AI285640, AA252209, AA581561, AA913601, AA603763, AA009729,AA009444, AA252208, AA886783, AA724048, AW391826, AI079718, AA775594,R48504, R48503, AA427500, AW881973, BE005990, AA405752, AA430679,BE005985, AW265644, AI424413, AW275442, BF764539, BG251413, AI890866,BF899981, AV726282, AI207963, AI216407, AI797190, AA862943, AA398675,AA393321, AA599014, AI097301, AI279255, AV752744, BE349244, AU150691,AW068586, AW628679, AI003284, AW780020, BF994241, R12340, H09530,AI612829, AV649791, AW887050, W45434, AK001237.1, AC079175.24,AL392044.7, AC002539.1, AC002538.1, AC090526.3, AF235098.1, AF129077.2,AC006117.1, AL357503.12, AC004882.2, AC006379.2, AL096770.16,AC005010.2, AL355977.11, AC061709.25, AL034451.26, AL133467.4,AL033529.25, AL031386.1, AC002086.1, AF165147.1, AP001727.1,AL139389.16, AL163151.1, AC053466.5, AC005529.7, AF165175.2, AC073068.8,AL583784.3, AL357150.7, AL163247.2, AC016254.14, AC013471.7,AL161935.10, AC009753.5, AC005023.1, AC004456.1, AC009949.9,AL049713.20, AC003986.1, AP001671.1, AL096776.12, AC020908.6,AC018468.4. HT3BF49 85 838620 1-2160 15-2174 AW450103, AI286250, H15073,H15072, AI283763, AW451893, AL355304.12. HTEEW69 86 764835 1-126815-1282 BE253978, BE254398, BE781341, BE255799, BE780436, BE780457,BE255033, BE251940, BE257706, BE780314, BE783528, BE255909, AA887084,AW172618, BE253356, BE257391, BE257100, AA913157, BE252558, BE256521,BE618088, BE258350, BE253421, BE251745, BE252959, AI184620, AI024872,AI581295, AI024850, BE256106, BE778121, AA062589, BE255962, AA938866,BE251245, BE259105, AA953444, BE258660, T19332, AI351056, AA700997,BE251072, BE259435, AA063062, AI016246, AA406443, AA994466, T36111,AI017555, AW025700, AA364302, BE259217, AA729497, BE255046, AW966401,U25928, BE251141, AA410460, AA776786, AV702417, AV695700, AV729376,AW950211, AV703687, AV706417, AV709092, AV686100, AV696754, AW952007,AW956891, AW964251, AW960655, AV728652, AV705299, AV705340, AV702296,AV726787, AW951270, AV729076, AV702998, AW962386, AW949478, AV725153,AV651897, AW962978, AW950443, AV703790, AW960601, AW952403, AW952183,AW959806, AV656903, AV661704, AW952751, AV697196, AW956075, AV645936,AV709587, AW955723, AV705135, AV658084, AW959980, AV650283, AV692600,AV650315, AW963768, AV659389, AV650591, AV697880, AV727613, AV656373,AV726010, AW964440, AV655280, AV660258, AV708109, AW959521, AV647789,AW956474, AV659294, AV727787, AV650691, AV703146, AV686060, AV725745,AV686064, AW951239, AV660608, AV728148, AV659322, AV726156, AV650768,AV654908, AV726590, AV698545, AV656478, AW959988, AV709314, AV653353,AV708381, AV654070, AV660728, AW951437, AV691080, AW951281, AV702385,AV658275, AW949802, AV652001, AV651955, AW955662, AV707979, AV703669,AV709580, AV727003, AV725208, AV685536, AV725582, AV708786, AW957517,AV659547, AW959543, AV727526, AV703169, AV725618, AV651920, AW954439,AV727510, AV725633, AV725031, AV728518, AV702266, AV725577, AV725033,AV706223, AV728924, AV725617, AW954206, AW960207, AW955900, AV707863,AV725991, AV696931, AW964421, AW952410, AV703062, AV727822, AV699089,AW964410, AV701874, AW950888, AV703501, AW962444, AW964409, AW964585,AW953574, AV702772, AV704774, AW952460, AW955710, AW954237, AV701180,AV651519, AV707401, AV701183, AV658751, AV683669, AV709660, AV704585,AV709935, AV654035, AV707652, AV707663, AV707654, AV728721, AV683994,AV706854, AV704042, AV654282, AV709880, AV697288, AV729220, AW954134,AV698290, AV687035, AV704847, AV694836, AV706882, AV697498, AV702954,AV655096, AV686420, AV694812, AV727238, AV682997, AV727126, AV696866,AV707656, AV726681, AV655890, AV701946, AV728997, AV706162, AV686390,BC001796.1, AK027894.1, AC023790.21, AF217994.1, Y08991.1. HTEHU59 87840385 1-1509 15-1523 BG249175, AL046260, AW963943, AI828967, AW955696,AI760208, AW297718, AI032354, AA417102, AL121147, AA806454, BF216179,AW514160, AA417206, W73366, N39447, N75616, N22370, W73427, N65972,AI370121, AI440453, C16433, AW470432, N98313, AW204089, AA444140,AL046261, H06227, AI796882, AA443958, AA789252, AI221678, AA716720,AW439530, AW873326, AI143241, N35303, AW613664, AA887889, AA845989,AW665345, BE218168, AI333474, AI333483, AI361785, BE464766, BE326250,AI680844, AA936826, BE348681, N94234, T90568, AI693650, AI971432,AI864735, R32990, AA379582, R40841, AA037360, R79419, AA364460,AW502585, T26572, BF248365, R79420, AA765052, BE763303, AV710415,AW137034, BF916703, N48559, BE504072, AW500077, AA663027, H38490,BE545425, AA953152, AI963960, BE907434, AL049814.6, AL137010.4. HTEMQ1788 840387 1-1754 15-1768 BG255431, AW365828, BF031371, AW365643,BF107518, BF211270, AL530660, AL120983, AW365846, BE141392, AI276663,BG121604, BF857983, AW365821, AW197389, BE141378, AW504995, BE141375,AV713095, BF811334, BE885456, AI683415, AA758267, AA332445, BF095659,BE152545, AA298292, BF695980, BE152546, AA319133, BE152543, AL040847,AA337156, AK027539.1, Z69890.1, AE006462.1. HTGBK95 89 834490 1-111715-1131 AL522125, AL522126, AL519350, AL529333, BF978108, BE217821,AW299468, BG106602, BE326803, AU149173, BE646271, AU153293, AU154281,AI432448, AI039818, BE467032, BE042910, AU152129, AU160794, AU153911,AI571337, AA237091, AI963695, AI635374, AA932292, AW043706, AI302679,AA236679, AA767544, AI735388, N42646, AI590210, AI224546, AI632813,AA234900, BF338277, AI085872, AW002721, AI049665, AU149933, AI142800,AI269171, AW242940, AI741857, BF034584, AI653576, R94321, N68116,AA513076, R43971, R94225, H05324, H24266, BG111524, R97540, Z41226,AA235171, N67392, AA991730, BF925392, AI521589, BF966823, BG110768,AW410784, BE205895, AI914747, AV699173, AV752994, BF037819, AL046227,AP001728.1, AP000010.2, AP001432.1, AP000151.1, D87343.1, AC007383.4,AP000344.1, AC007172.6, AL021155.1, AC011481.4, AC006994.4, AL591104.2,AC011491.5, AC002565.1, AC002073.1, AP000030.1, AL512347.14, AC018639.8,AC010092.4, AL391241.21, AC004638.1, AL136168.4, AC084865.2, AP001746.1,BC008280.1, AL354760.11, AL132768.15, AL035458.35, AL365338.17,AP001711.1, AK025798.1, AC009779.18, AC015982.9, AL031726.22,AL049539.21, AC004797.1, AC034240.4, AP000208.1, AP000130.1, AL031733.3,AP000247.1, AC083871.2, AC083884.6, AF042090.1, AC018719.4, AC006334.3,AC011811.42, AC007563.2, AC004878.2, AC004227.1, AC020552.4, AP000045.1,AP000113.1, AL118520.26, AC008551.5, AC018758.2, AL163282.2,AL353716.18, AL157372.18, AL590037.7, AP001710.1, Z82214.23, AC008507.8,AC023880.5, AC020928.6, AC008755.6, AL356747.18, AL445645.10,AL031727.42, AC005562.1, AC002425.1, AL079342.17, AL136126.34,AC004883.2, AL034374.2, AC019184.3, AC009501.3, AC002558.1, AC006435.7,AC004383.1, AL031985.10, AC073316.6, BC007199.1, AF307337.1, AL133444.4,AC011484.4, AP000313.1, AC007551.1, AC011450.4, AC006023.2, AL158158.14,AL121897.32, AF334404.1, AC006006.2, AC007003.4, AL050307.13,AC009484.3, AL391122.9, AC007597.3, AC005086.2, AC022425.6, AC006039.2,AP001695.1, AC073964.3, AC006345.4, AC009220.10, AC004166.12,AP000050.1, AJ400877.1, AC005399.19, AL137060.13, AC004750.1,AC025754.4, AC003043.1, AC004882.2, AC024028.10, AL022165.1, AL121722.9,AC005212.1, AC005736.1, AL022311.5, AL035423.4, AC079602.15, AC010650.8,AC004098.1, AC006487.8, AC012306.11, AP000117.1. HTLEM16 90 7791331-1901 15-1915 AL537268, AL524867, AL521379, AL524655, AL521380,AL520082, AL528768, AL513950, AL527410, AL532992, AL518562, AL526411,AL520081, AL524866, AL527368, AL518561, BF793507, BE293505, BE797874,BF966727, BF793437, BE293461, BF688814, BF690146, BF966760, BF340717,BF663834, AL524654, AA781166, BF342274, BG179677, BF570071, BF663178,AL537267, BF690560, BE903323, AV728729, BF340891, BF528974, BE257966,BE278858, BF515895, AW964631, BE297161, BF968582, BF026117, BE733780,BE280977, BF724855, BE312997, AA641020, BF529180, AL519567, BE279987,BF344151, BE255018, BE390139, BF701583, BF688333, BF966530, BF345769,BE302964, BF345255, BF569584, BF206038, BE249931, BF026959, BF966315,BE257931, BE730892, BF061136, AA621730, BF058285, BE900610, AL526371,BF347440, BE302621, AW131766, BF529014, BF984577, AI803361, BF439974,BF527493, BF967158, AI708896, BE900258, AW131694, W21824, BE408464,BE563677, BE251526, BG024544, BE780162, BE257745, BE892373, BE727832,BE727561, AW026308, BG035433, AL513949, BE731124, BE896130, BE276768,BE385541, BF240238, BF984799, BF689920, BE390488, BE778942, BF084737,BF965298, BE905202, AA640946, BE383842, BF724132, BG024277, AI279215,BF529777, BE314506, AW167695, BE407700, AW027751, BE904285, BE384005,BF027626, BG031193, BG106859, BF725279, AA044161, BG025646, BG119068,BF346642, BF027086, AL134384, AI299018, BE281345, AA908781, AA496423,H38040, AI095564, BE906042, BF026948, BE408496, BF528680, AI338106,W22099, BF111929, BF689664, AA086051, AI138962, AI815598, BE895892,AA921766, AA809477, BF851430, N95209, AA402419, BE302043, BF026902,AA284506, BF446741, BE547438, BG056414, AA761749, AW152609, AA679123,AA526535, N78612, AA809563, W27812, AA903910, D52750, H41405, C15929,BG104603, N70493, H15374, H15378, AI033087, BE764253, BF670047,AV648334, AI871263, T33274, R44660, AW513845, AA044069, BG059536,BE350072, AW166762, BE207476, AW262785, AA961219, AW190491, T30636,AW195111, AV723609, BE731711, W04862, BF203872, BE207570, H73593,AA527956, H41532, AI813904, BF340463, BF984596, BE249854, AW873291,AA976134, BE870399, R59073, AI301136, R59953, BF724545, BF434606,AI341591, BF795344, Z43745, AW006965, AI539828, AI620455, R71196,AA262408, H38431, AA746078, BE300768, AA768657, AA287226, H39122,AI688746, R59074, AW968070, AI221081, H45573, BG036289, BF732285,R89743, R52105, R89524, AW192972, H39109, F21878, R55125, AA054051,F35396, H73136, R89515, H27036, H30800, BC007452.1, AL049981.1,U79458.1, T71990, T72134, R13336, R13361, R14291, R19855, R20564,R23528, R23850, R38051, R38140, R40239, R40806, R40877, R46066, R52202,R40239, R46066, R40806, R40877, R55172, R59952, R71197, R74550, H00920,H00921, H06038, H13371, H14229, H14228, H15379, H15734, H15735, H20187,H20378, H22730, H24012, H25024, H25025, H27124, H41316, H39140, H45048,H45083, H46906, H46907, R84647, R85533, R86285, R86864, R87472, R87473,R88512, R89742, R89818, H50796, H51181, H51561, H51928, H52028, H54799,H54852, H73819, H74228, H80914, H80915, N51908, N64691, N70497, N91704,W25242, AA086140, AA115567, AA115088. HTNBK13 91 831967 1-1146 15-1160BE799670, BE794458, BF969839, BF116235, BE894258, AI755110, BE693669,AA209372, AA209368, AV702645, AW957276, AV724122, AW517214, AW173346,AA197278, AI609300, BF726226, AI261762, BE882052, AI400083, AA112077,AI242204, AA114827, AA314213, AI741473, AI828740, AI982748, AA197243,AI140451, BF923463, AA838629, AA854805, AA114846, N59363, AA931373,AA972617, BF358017, AI687104, AA234016, AA843577, AA625125, AA133768,AA911212, AI553981, AA304885, AA133767, R76792, AI559186, AW874604,BF358016, BE180724, AA486696, BG248840, AA733214, R75956, H24319,AA447346, AW839247, AA633116, AI187039, AA877750, AA938362, AA083910,AA384854, N32060, H23039, AA678500, F16874, AA972329, T84723, AW372424,AW372436, AA906710, AW372421, AW372425, AW372444, AW372435, AW372434,AW372427, AW372439, BF897466, AW372423, AW062891, AW372443, AW372420,AW372440, AW372433, AW372437, AW372422, AW372432, AW372442, AW372430,AW372428, AW372419, AW372429, AI383049, AI383050, AW372431, AI702272,AI701769, AW372274, AW372408, AA092723, AA634344, AW805484, AI623944,AI985597, AW073164, AW372407, AA352209, AW749114, AW629894, AA912615,AA825365, AA029876, H55702, BE814640, AA975153, T52666, AI540674,AW073898, AA857847, AA808175, AV721824, AI298026, AW834282, AW952443,AI287233, AI784233, BE966278, AA809897, AL514721, AI698391, AI500714,BE905211, AI978703, BE874163, AA868961, AW051088, AL514025, AI570884,AI250627, AW827249, AI366900, AV713528, AI633125, AI538564, AI915291,AW152182, BE393784, BE843239, AI582932, AI590043, BF970040, BF811804,AI889189, AL514511, BF724894, AA641818, AI866469, BE965208, AI884318,AI638644, AI570056, W74529, AI804983, AL513779, BF814449, AI699823,AI345745, AL514871, AV733582, AI351959, BE896769, AI628337, AL513999,BG026483, AI610714, AW189332, AV726590, BF811802, AI538885, AI274507,AI423198, AV753074, AL043070, AI521005, AI621341, BG029667, AI571966,AI539690, AI500061, AI702527, AI741158, AW020693, BG105241, AI927233,AI979129, AL514279, BF970768, AI670002, BE881211, BE964961, BE963575,BE967219, AA928539, AV712722, BF089679, AI559524, BE964506, AI583558,AI499570, AW020095, BE784335, AL514455, AI811603, BF750875, AI473536,AL513911, AI922215, AL041150, N33175, AL515033, R41605, AW072349,BF812426, R32821, AV726058, AL513631, AL514357, AL513907, AI815232,BG031068, AL121365, AI859991, BF885082, BE880084, AI872423, AL050345.1,AL021707.2, AL136686.1, AB015347.1, BC008839.1, BC008899.1, AK026959.1,Y10936.1, AK026647.1, AB060893.1, AK027137.1, AL512765.1, AL133637.1,AL389935.1, AL136808.1, AB050431.1, AL110269.1, AL049283.1, AF143723.1,BC002733.1, AF141289.1, AL122100.1, BC001056.1, AL133010.1, AB060877.1,BC002343.1, BC006494.1, AK000250.1, AF184965.1, S78453.1, AB060863.1,BC004925.1, AB047947.1, M85164.1, AK026462.1, BC009311.1, AL049938.1,BC001967.1, AL122045.1, AL080156.1, AL080148.1, AL137480.1, S76508.1,AK024538.1, AF097996.1, BC004899.1, AK026045.1, AK026613.1, AL137284.1,AF155827.1, AL117648.1, BC008063.1, BC005858.1, BC004195.1, BC002372.1,AF058921.1, AF199509.1, AL110218.1, AK000502.1, BC007920.1, BC005825.1,AK024992.1, AL137530.1, AL080110.1, S77771.1, AK024747.1, BC001199.1,BC002697.1, AC020910.5, BC004945.1, X00474.1, AK026744.1, AL110228.1,AL117394.1, AB047904.1, Z82022.1, BC008285.1, AL136747.1, AK025708.1,AL110225.1, BC004556.1, AL133623.1, AK025889.1, AL137627.1, AJ406939.1,AL049382.1, BC002409.1, AL050280.1, AF090903.1, AL137533.1, BC006287.1,AF227198.1, D83032.1, AF177340.1, BC008920.1, AL136850.1, AK024594.1,BC004530.1, AF069506.1, AF232009.1, BC007926.1, BC004513.1, Y14314.1,AL157482.1, AL133049.1, AL110280.1, AL133665.1, BC006414.1, AB049849.1,BC004991.1, AL110196.1, AL133080.1, AB050410.1, AB047623.1, AK027173.1,AL137574.1, AL137711.1, AB055368.1, AK025312.1, AF274348.1, BC002473.1,AF274347.1, AL133112.1, AK026408.1, BC003658.1, X82434.1, BC009221.1,AF245044.1, BC000253.1, AL080159.1, BC002809.1, BC003614.1, BC004222.1,AK025375.1, AL137523.1, BC005168.1, AK026741.1, BC008037.1, AB056809.1,BC003684.1, AL359941.1, AK026550.1, AK024588.1, AL049339.1, AB055361.1,BC008836.1, AL137560.1, AF217987.1, AL080139.1, AL137529.1, AL389982.1,AK000653.1, BC007499.1, AL137276.1, AF076464.1, AB060912.1, AB048953.1,AB060876.1, AK000103.1, AL390184.1, AB062938.1, AK025435.1, BC005165.1,AK000257.1, AL136893.1, AB052200.1, AF262032.1, AL136754.1, AL137488.1,AL080126.1, BC004191.1, AL050092.1, AF230402.1, AF098162.1, AL137550.1,AK000690.1, BC005002.1, AK026534.1, AL162083.1, BC008781.1, AK026547.1,BC005805.1, AK026480.1, BC008686.1, AK025339.1, BC003101.1, BC007347.1,AL133075.1, BC002466.1, AK026927.1, AK025857.1, AL136842.1, AL137716.1,AF285167.1, AL162006.1, AL136615.1, BC008918.1, BC006164.1, BC006410.1,AK000630.1, AF183393.1, BC007556.1, AK025254.1, AK027142.1, BC004416.1,AY026527.1, AL133113.1, AL162004.1, AB055315.1, AL356859.12, AL080162.1,AL137526.1, AK000603.1, BC004370.1, BC009310.1, BC006103.1, BC003056.1,BC001652.1, AL117416.1, AL137459.1, BC003569.1, AK000083.1, BC000090.1,AF132730.1, D83989.1, AK027152.1, AK000323.1, AL353956.1, BC001844.1,BC004264.1, BC001969.1. HTODN35 92 570901 1-1580 15-1594 AC009079.4.HTPDU17 93 840596 1-2064 15-2078 BE869540, AL138453, AI889499, BE676567,AI683595, AU148542, AI039004, BF512788, AI870272, AI475918, W84558,AI306697, AI348214, AU124745, AI039634, AW339552, AA993287, AI378108,AI660166, AI632811, AI022311, AA421143, AI969630, H13875, AU156227,AA448780, AV656957, AA620816, AI351952, AI077578, AA397629, H69276,AI140584, AI093561, AA369632, BF768781, BF768924, Z46102, BE825411,AA905570, AA252965, R06813, R69887, AI610669, BF836773, AA383097,AA953665, AV724009, AI368500, AW300903, AW577896, BE393193, R33167,F04291, BF348790, AW935770, AA301251, H13832, AA227255, AW843678,AA234999, AW935729, AA449799, BF834447, AW139651, AW134619, BC008784.1,AK001266.1. HTTDN24 94 766485 1-1978 15-1992 AL513751, BG035744,BE792734, BE535814, AI968100, AI638191, AI962526, AW590203, AW593447,AW590212, BE541446, BE220296, AA205663, BE564856, BF769037, AI968771,AI632511, AW250856, AA205775, AA205709, BF843264, AA773929, N53214,AA486579, N30623, AI655137, AW014522, BE564422, AI742717, BF028977,BE672098, AA777617, AI146844, AW577576, AI159827, AA563660, BF027920,AI637620, AI078792, AI990191, BF062933, BF062045, AW044164, BF770158,AA256059, N32225, BF769030, BF769032, BF445417, AA486679, AW959397,W22630, AA554325, R59984, AW006249, AW236554, AW577601, AA765281,AI653704, AI206329, R67166, AW243537, AA205674, H00645, T16860,AA256068, N57321, H00733, N41868, T16861, AI149479, AI906144, N59086,BF926652, AA909318, AW594490, AA299517, N58615, AA641283, AA644247,AW236428, AI820831, BG009693, BF851615, AA743510, Z42234, AA834460,AA548119, AI672532, F07004, Z40114, F01762, AA301407, BF085945,BF931293, AA205611, AI638784, BF085928, AA983380, BF059602, AW192770,BE714630, AA205702, AI078796, BC001039.1, AF310106.1, BC003592.1,AK000784.1, AK025952.1, AF298547.1, AK026387.1. HTTEE41 95 840950 1-195915-1973 AL533251, AL514520, AL535565, AL519250, AU120401, AL514519,AL513606, AL517678, AI986262, AU139509, AU138912, BF797374, AU124362,AV714807, AI970836, T25350, BG169633, AU126517, BG031251, AA854925,AI683290, AI084631, AU130264, BE748699, AU124315, AU133858, BG109529,AU135232, AI080278, BG119840, AI114754, BG258768, BG255494, BE786284,AI955296, AU126258, BG254492, BF057590, AI342485, BE907879, AV689488,BG035949, AV688329, BE780740, AI982815, BE897302, AL037847, BE619295,BF037149, BE547405, BE540421, BE870861, BG119545, BE891546, BE872237,BG179989, BE784107, AI992184, AU128577, BE893297, BE798745, AI858401,BE871280, BE882225, AI801143, BE748021, BG033360, BF984307, BF795054,BE535364, BE870845, AV711098, BG115930, BE787681, BE542328, BE872802,BF700048, BF695387, AI674907, BE439607, BF984686, AW079041, BG166631,BE896320, BE541060, BG168465, BF212903, BG165234, BF036631, AW276472,AI469127, BG116642, AW304879, BG035549, BE298292, BE383409, AW951669,BE789205, AA876301, AI559157, BE618039, BE569054, BE884211, AA314410,AL037869, BF034922, BG261406, BE278215, AI567289, AI216294, BE536033,AA160646, BE541100, AI652229, BF793118, AA573870, BE781061, AW675729,AV717435, AW967121, AW268555, AW614767, BE871948, BF246592, AW302409,BG231674, AL519249, AI623915, AA633523, BG056451, AI554391, BF593678,AL513605, AA541705, BE536986, BE540075, BE893524, BF211942, AW403677,BE302004, BF030769, AA639701, AW675653, BG114666, BF305722, AI812111,AI003845, AI922596, AI610416, BE874043, AI690769, AI423245, BE884372,AI041880, BE972270, BE277936, AI970618, BE564025, AA569371, BE536189,AW517408, BF692138, AA838062, AW675629, BE544390, AA665762, AI129259,AI018744, AV717173, BE563964, BE278405, AU155033, AA779219, AA935682,AA306144, AA307298, AA707035, BF241179, BF207700, BE018391, BE964282,AA916194, BE567396, AA928532, AW197045, AA740956, AA877985, AI081121,AV751536, AA102457, AA160479, AA192686, AA574025, AU146473, AV739405,AA242865, AI249678, AA081834, AI566278, BF212412, AA188046, BF242025,AL517677, W22339, AV748102, AW001935, AU157811, AA634515, AI151103,AI027752, AV752496, AA031432, BE535794, AA838373, BG166698, AW023950,AA514375, BE540980, BE222647, AI027493, AA308098, AI499910, AU150842,AI537313, BE258575, AW468963, AA665209, BF208112, AI288710, AI074560,AA758489, AA307507, AU128978, AL121077, AA224142, BE551072, AU152253,AI589777, AA242864, AA865406, AI086547, AA159666, AI082436, AW953920,AA143173, BE909718, AW089251, AI240700, W72593, AI919263, AF026166.1,AF026293.1, U91327.1, T55193, T70199, T88741, T91070, R11411, R12294,R12806, R19161, R25132, R25131, H02506, H02507, H54342, H56330, H63377,H63378, N21157, N29115, N70633, N98764, W00501, W02093, W05515, W30995,W32188, W45121, W52697, W76587, AA022658, AA022740, AA031431, AA047132,AA045726, AA053378, AA053093, AA084605, AA136549, AA142896, AA151835,AA151836, AA159771, AA187179, AA192116, AA224141, AA233936, AA232345,AA488991, AA534693, AA586488, AA623003, AA740505, AA829738, AA829916,AA876221, AA932434, AA933813, AA968745, AA969795, AI089838, D81695,N84531, C00761, N87565, C14312, C14469, AA641463, C17845, AA209312,AA401491, AA400238, AA598835, AA644299, AA705865, AA723334, AA852740,AA852739, AI076109, T23525, T16205, T27335, T27402. HTXJD85 96 8403911-1103 15-1117 BF511613, R16403, H06356, AC005874.3, AF134471.1,AC018828.3, AC022383.3, AC005261.1, AL031588.1, AL132653.22, AC008649.6,AP000689.1, AB003151.1, AC005080.2, Z94056.1, AF243527.1, AC011308.8,AC016637.6, AL355074.5, AL391259.15, AC018808.4, AL355543.13,AC034193.4, AC008569.6, AC001231.2, AL354720.14. HUVDJ48 97 5648531-1813 15-1827 AI479925, AV720735, AI886110, AF261918.1, AB037733.1.HWBBU75 98 780360 1-2717 15-2731 BG254332, BG258993, AW189216, AW189167,BG110226, AA621650, AI524238, AW027302, AI085248, AI187104, AJ403112,AW129561, AA287508, AA287381, AI569606, AW137239, AI814239, BE246677,BF356218, H87267, AI831754, H87322, W15561, AA831701, AA808000,BE086121, AW137386, AA932127, H92853, BF916818, R84247, BE672348,BF869463, AI380578, BE696648, N80792, AA811717, AA922507, BF945407,AK024474.1. HWHPB78 99 740778 1-1332 15-1346 AA004226, AA007259,AW071800, AW337233, BF684823, BE560744, AU143103, BF981277, AL528300,BE890251, AL525528, BE561304, AL534641, AW812566, AI198256, AL523832,AL527753, BE513546, AW812538, BE019389, BE560550, BE295978, BE410204,BE396701, BE397300, BF311702, BE734414, BE407616, AW390317, BF311227,BF125626, AA564034, AW732876, BE900601, AU130458, BE884575, BF206225,BE260519, BF218274, AL043160, BG116256, BE281524, Z41929, BE398062,BE251451, BE560915, BF317183, BE939837, H12990, H23167, BE780064,AA172145, BE312987, BG166994, BE314032, BE312450, BE390267, BE559942,AL120269, BG034775, BF315481, AB033099.1, BC002542.1, BC007803.1,AK024028.1, AK001571.1, AF343078.1, AL391244.11, AC004799.1,AC011737.10, AL137792.11, AC008755.6, AC007421.12. HWLBO67 100 8343151-522 15-536 AC011739.7. HWLGP26 101 834770 1-1884 15-1898 AL529987,AV699741, BF530871, AW207742, AI638032, BE540656, AI469103, AW575118,BE503442, AI652512, AA928729, AW592532, AI419960, AI057140, BF102699,AI365238, AI392687, N49757, AA832314, BF819685, AI025113, AI767982,AA766124, AU151363, AW402473, AI654109, AW070683, AI738949, AA815032,BG231904, AW578625, AI365240, AV688777, AA769270, AW613566, AA605050,AI459543, AI885560, AW361738, AV689923, AA046663, BE242932, BF895261,AA507121, AA046576, AI627311, AW296010, AA814924, BG253328, BE789823,BE243489, AA298793, AI458707, AI208523, AA694217, BE247085, AW137352,AV689313, AA077726, BE241524, AL523598, AV685517, BE241950, AV697781,AV691130, AV688018, AV697631, N52685, AW182301, AA910584, AA126044,AW390687, AL529988, AF176097.1, AK023002.1, AJ131891.2. HILCA24 102869856 1-1968 15-1982 BE780749, AU137314, AV732875, AW954734, AW138881,BF681107, AI079555, AI624252, AA233208, AU157126, AI734898, AW088851,BE221267, AA314962, AV715966, AA971982, AA233124, AA129416, AA133798,AA886808, AA353195, AW132033, T98200, H50558, AI888751, AI818363,BF917932, BF926224, AI784628, H50559, T98201, AK001989.1, AL512750.1,AC010627.5, AC010491.3, AC026749.5, AC016656.5, AC016652.5. HE2CA60 103888705 1-3020 15-3034 AL535023, AL514917, AV727366, AW960741, BF970019,AV711225, AV658809, AV721596, AV658785, AU126984, AV693513, BF129964,AI140773, BF576888, BF929570, BF102505, BF677857, BF697387, AW006994,BF448157, AI302186, AW770389, AI888667, AA215792, AI337827, BF701132,AI573244, AW173639, AI870916, AI635189, AI678655, AI379341, AV748873,AI417164, AI023944, AW769389, AW021198, N39649, AA311424, AA593881,BF693869, AI538428, BF343015, BE350890, AA527258, AA446972, BF693703,AI673388, AV725444, AI160026, AW166928, AW084026, AI246492, AV728808,AI865154, AA535263, AA278438, AW958219, AI598040, N50839, AV703798,AV726287, AI567526, AA568228, AA780953, N90778, AW467601, AA411969,AI038481, H27220, AW296240, AA253481, W93347, AA232931, BE439630,AA932649, BF914259, AA716259, AW796151, AI080112, AI673834, AU156818,AV655775, AW190288, AA234891, AI953472, AA814625, AU158056, AI289270,AI702014, AI908123, AU154032, BE813629, AI446206, AA075083, AA232943,AI908087, AA621767, AI288409, AI961349, AA075001, AI470257, AA573515,AV686052, AV683900, AV708123, AA906650, AA598599, N75631, N22393,R87834, H28574, C20658, BF214864, BE089894, BE089889, BE089884,BE568741, BE177263, AW103250, AI567153, AA029909, AV707840, AI277579,N66892, D11764, AA588488, AV713215, AI091052, AA760879, AA451779,AA436604, AA449973, AW952511, AA743486, H88193, AA761104, AA887248,AI537734, Z28798, AI868443, H27622, AA460194, BE769290, BF213107,AA215630, AW369729, AV748115, AI630957, AI217501, BE765338, BE243642,N49735, AA030038, AL535022, AW973619, BE715613, AU119491, BE715618,T32443, R41621, AI908149, R18666, D62030, BE715610, BE715622, BF240978,AI492659, AV721162, BE715623, AA412738, AI929527, AI870127, BF155088,AA337914, AI886159, AI880332, R87759, AA578074, BF347940, C03599,AW149323, AI858885, AW582368, BE715600, R23365, AA503713, N56115,AA861658, AA429509, AW937431, AV712224, AI587356, AA279034, AA730462,AA366526, AA331496, BE769848, AW582361, AI908105, BF198101, BE768029,AI525041, AI566976, AA252936, BE167506, AA337416, H88194, AW805194,Z28797, AA375774, AA337493, AA304794, N26583, AA248761, AA336736,AA918009, N86808, BE768102, N56183, BF813368, AA332577, AW360775,BF699012, AW607859, AA037239, AA234184, AW385045, R94890, BE768193,AA248808, AA377361, AI679117, N87842, BF208805, AW610530, R58320,BE172045, AA218663, AW472993, BF448490, AA587998, AA668344, T55233,AW089673, N54694, AI950073, BF240775, AA995161, AB034205.1, AC005921.3,AK027723.1, AL050121.1, AF069250.1, AK023672.1, AK001925.1, AF147357.1,AC007383.4, AC006336.4, AL161899.21, AC019159.8, U95739.1, AL355834.4,AP001699.1, AC006994.4, AC016652.5, BC000799.1, BC006832.1, BC006103.1,AL449305.4, AC012502.3, AC006373.3, AC019176.4, AC005291.1, AP001623.1,AL133325.20, AL355512.22, AC012368.6, AC010088.3, AC004383.1,AL360294.11, AC007298.17, AC066585.5, AP001746.1, AL133258.16,AC026431.3, AC010319.7, AL136850.1, AP000130.1, AP000208.1, AF124728.1,AL121656.2, AC022402.4, AL133665.1, AP000247.1, AC016144.13, AK000753.1,AC006039.2, AB050410.1, AC044797.5, AL512733.1, BC008078.1, AC010149.8,AC006222.1, AC024028.10, AC010081.4, AL050309.4, AC068715.5, AC006241.1,AF061943.1, AC010723.3, AC026888.6, AL133405.17, AC025735.4, AL137527.1,AC083867.4, AC006288.1, AL137558.1, AC006338.5, AP001346.1, N52664,AA278736, N88556. HPWTF23 104 844775 1-1994 15-2008 AL519322, AL519321,AL528621, AL525472, AV708533, AV707483, BG117131, AV701688, AW954252,AV701690, AL525317, BF968790, AV709370, AV707363, AV657517, AI635895,AL036882, AW857209, AL036883, AV707606, BF128575, BG121441, BE295239,AW392020, BF311431, AV762694, AV706829, AA523541, BE073173, BE295817,BF514386, BE675214, AI949219, AW262884, BE858056, BG055038, BG249916,BG037033, AW371034, AI674706, AI708919, AV715587, AA535070, AA679292,AW022838, N50052, BE830095, AU148045, BE870349, BE349624, BE350028,BF837239, AA147899, BF845844, AW073776, AU147814, BF725674, AI368808,AI927857, AI342463, AV701888, AI140105, AA487093, AV750709, BE858057,AW190710, AA147844, AI096573, AA716187, AA722314, AI862165, W63717,AW262935, AA906753, AL525667, AV748474, AI269618, AI760874, AI074133,AA662310, AI924825, AI309724, AW468063, AA613662, W76557, AI089512,AI984192, AI707646, AA459957, AI624320, BE164613, BF967589, AW029309,AI640395, AI128327, AW176265, AW167854, AA040063, W46859, AI570042,AA618091, AI144525, AA010681, AI379204, AA460046, AA862301, AA599534,AV743247, BE138816, AV650781, W67232, AA971998, AI310729, N62277,AI597921, AI978845, AI671691, AI766634, W72563, AW316882, AI570060,AA135362, R52727, AW468339, AA516433, AW276147, AI800083, AI572626,AI272092, AI368167, N50029, AI865786, AI708598, AW316956, BE063387,AW007919, BF725145, AV650618, AV661271, T63404, AW243982, AA394163,AA431390, AV739478, AA018926, N47564, AV736149, AI480119, AW263269,AI039111, AV650298, W60279, AA765950, AA775091, AV741361, AI672788,W92333, AI913079, AA602156, AA010680, AI312732, W58299, AI718214,AV744886, AI865478, W46821, AW338299, AA115222, AA026509, AA833692,T65926, BE676820, AW629236, AV760664, AV744890, AW512231, AI272268,T79429, AI420676, AI933008, AI720397, H44638, AI699112, W58190,AA318908, BE160746, AA576196, T60058, AA318968, AA335541, AA507838,AL038891, BE244391, AI567253, T33201, AI422399, BE242438, F28371,W92390, T27118, AV660511, AI198237, AA279281, T32253, AA987730,AI521033, AI582582, AA137239, W65468, H26544, AA115157, AI377668,BE245885, AA953911, BE241874, AI587551, R22214, AI918377, AW779069,AA953835, AV760987, T79517, AW263932, W65469, AI524412, BE241477,AI955974, AW023746, BE160914, AV746796, AI216726, BE831539, AI184048,AI598049, AA148643, AI246336, AI538030, W46870, T60102, BE179366,AI224380, F09314, AW663101, T63029, AA043646, AA302796, T65354,BE243054, BE063421, T30199, AY007119.1, AF183393.1, AF228339.1,AB025432.1, AF153603.1, AL110191.1, Z50781.1, T63278, T64499, R22268,R34893, R49280, R49280, H43597, R86094, N47563, N54684, N54707, N77565,W60371, W67342, AA019007, AA148642, AA190663, AA464495, AA464496,AA427718, AA429282, AA244422, AA244455, AA551457, D79925, N85667,C20552, AA652629, AA652778, AA292345, AA293158, AA293176, AA292756,AA432382, AA835434, AA909440, T24090, D45452, F11656, F11926, F09572.HGCAC19 105 851527 1-5047 15-5061 AL527635, AI582588, BE619956,AW003219, AW195551, AI114573, BE888827, BF444977, AU139098, AA307878,AI915534, AU117064, BE466128, BG251218, BE619434, AI700569, AI823371,BG260998, AI625554, AI478557, AW958690, AI052694, AW963950, AL134475,AU136749, BE326684, AW770747, AI803406, AI990669, BF448130, AW770442,AI193790, AI659257, AV757384, AI669806, BE835313, AI917737, AA947974,BE881668, BE466358, AI698025, BF061334, BF433914, BE551956, AW003148,BF055107, AW237192, BE646481, AW949672, AA910441, AA994008, AA804520,AW058531, AI247672, BE890358, AA156928, AI767577, AW949361, AW166817,BG104926, AI971146, AW299771, AI990108, AI631706, BG114047, AA824598,AA156804, AA312557, AA677603, AI636032, AI400786, BE768656, AI199770,AI989485, AA155855, AI802754, AV650187, AW014065, BF677900, BF680207,AA557259, AI925305, AA446690, AI261268, AW150014, AA155958, BE379872,BF215025, AW867051, BE672462, BE168338, AI350222, AI624072, AI825185,AA436183, AA916694, AA436309, AW867047, BE139075, BF530119, AI656311,AV755927, AV746485, AW770099, AA147323, BE768554, AI885519, BE768542,AA446565, AI821288, BE245294, AW129764, AA599626, AW818369, BE245262,AI536551, AI040161, AI446564, AI627777, AA020816, AV758283, D80771,AA806383, AA136672, H40373, BE042467, AA013438, AI591292, AW472897,AI821040, AI820997, AA180321, AI356314, AA312855, AI610014, BF902177,AW195825, C75219, AW015240, AI936012, AI219472, AA086094, AW169820,AW983970, AA113317, AI282736, BE175626, BF061715, AI275943, AW294050,AV738635, AA358726, AA463692, BF896130, AW183617, H21867, BE168125,AI246262, AA059237, AA677761, AA628617, BE768595, AI625290, AA007519,BE768665, AW374169, AA355425, T07209, AA377468, AW271631, AA152212,AW189878, AA086093, AW594290, AA742173, AI949786, AW023249, AW750461,AA256785, BE872264, AA709003, AA147425, AA361135, H40320, AW392416,AW392849, BF081349, AI038854, AW188893, BE763982, AA976161, AA345273,AW858464, AW891017, D52302, AA358727, AI699855, D61215, D52967,AA430996, AW376216, R81478, AW501079, AA007520, AA353267, AA728991,AA304423, AA356393, AI370683, AW024132, T71726, AA361495, AV724116,AI888048, BF844493, T40389, BF089968, T71578, AA621423, AW043940,AA513522, BF763717, R62569, BF950322, AA334984, BF091136, BE892057,AW188923, AA826001, N24122, BE768735, AW382160, BF985865, T18537,BF365430, AI830982, AW452149, AW188842, BE702825, AI637868, AA732593,AA376840, AW858513, BF804806, D19713, AW131746, AA256511, AA829191,AI310882, AF109907.1, L40392.1, AK026107.1, AC004858.2, S67071.1,AF135593.1, AC006345.4, T60745, R25599, R26428, R26995, AA136788,AA150143, AA888518, AI053404, AI053507, AI053899, N64912, N64913,C00711, AA393814, AA905385, AI002840. HEQBJ01 106 876546 1-2777 15-2791AU123703, AI744148, AI744113, AU130720, BE897357, BG105308, AU137281,BF308835, AI860811, AI889014, AI765413, BE546221, BE670583, AW237314,BG248530, AW952369, BE502734, BE503479, AI765401, BE540301, AL042645,BF212478, AW500417, BG249708, AW674190, AI867571, BE018153, AW293518,AA534578, AI432178, AW169762, AA506984, BE389321, AA420605, AI142237,AA406169, AW591668, AW188054, AI147954, AA430324, AL040186, AI197943,AW502601, AI589634, AA569041, AI015938, AA433904, AA070872, AI188829,AI124780, AA421239, AI149224, AA420647, AI916160, W73655, AI076564,AI768356, BF592904, BE464156, AW772442, BE219974, AI638215, BG034042,AI125307, R51293, BE812953, W51790, AA172002, AA425349, AA565222,AA313542, AA825728, R35270, AW204507, BF306159, BG152825, AA100809,W28763, BF223048, AI222042, AI479185, W26572, W45413, W73608, R52192,AI160529, AW440819, AI422286, AI298011, AA171761, AA421279, R51403,H62930, R52097, R59309, BF880022, AA581790, W81419, BF844067, AI768849,W40121, AI708313, AW511347, AA373236, AW368276, BF844000, AA434583,AV747735, Z42217, BE702753, W81420, AI962360, AA325784, BF879714,R59310, AI271621, T25845, BF879715, T06069, F05246, BF880008, AA806028,Z38264, AA071023, AA815452, N54389, BE929180, BE929187, BE929175,BF092052, AA810542, AA383377, AI370602, R50941, T87272, BF149192,T87186, AW867815, F01748, AA947741, BF749400, AA773493, AA890049,AW591526, AI985779, AA984284, BF923416, AW272799, AL043147, AB007891.1,BC002701.1, AC009079.4, AL157384.8, AK025058.1, AK026926.1, AC009779.18.HBJHT01 107 587262 1-1237 15-1251 AW572853, AW852662, AW794904,AW852694, AA494184, BE092308, AW467441, BG000611, BF871414, BF871418,AA715850, AW962959, AI281561, BF899671, AI537814, BF899672, BF970033,BF899670, AW975902, BF847493, AW197990, AC084865.2, AL590763.1,AC008403.6, AC002551.1, AP001858.4, AP001692.1, AL450224.1, AL160269.14,AL022476.2, AL049762.20, AC011811.42, AL356020.3, AC078818.19,AC007842.1, AC007055.3, AC008569.6, AC005803.1, AB020865.1, AL353574.8,AL138836.15, AJ277546.2, Z93930.10, AC005484.2, AC069548.4, AC007619.22,L44140.1, AL158040.13, Z95115.1, AF196779.1, AC009155.3, AP003116.2,AC005548.1, AL354696.11, AC005254.1, AL353579.17, AC012323.7,AC007371.16, AL049780.4, AC000353.27, AL022336.1, AC009309.4,AL158830.17, AC005488.2, AL591076.5, AC007954.7, AL031664.1, AC000025.2,AL121586.31, AC004859.2, AL365364.19, AL049757.14, AL390205.17,AC007011.1, AL353812.13, AL157877.11, AP000893.5, AL021391.2,AC087244.17, Y10196.1, AF001549.1, U91323.1, AL096701.14, AC034193.4,AP000501.1, AC022211.5, AC011472.7, AP002852.3, AL031650.22, AC008745.6,AC011005.7, AC006930.1, AF053356.1, AL133174.15, AL137918.4, AP001715.1,AC018808.4, AC009488.5, AC027319.5, AL110115.38.Description of Table 4

Table 4 provides a key to the tissue/cell source identifier codedisclosed in Table 1B.2, column 5. Column 1 of Table 4 provides thetissue/cell source identifier code disclosed in Table 1B.2, Column 58.Columns 2-5 provide a description of the tissue or cell source. Notethat “Description” and “Tissue” sources (i.e. columns 2 and 3) havingthe prefix “a_” indicates organs, tissues, or cells derived from “adult”sources. Codes corresponding to diseased tissues are indicated in column6 with the word “disease.” The use of the word “disease” in column 6 isnon-limiting. The tissue or cell source may be specific (e.g. aneoplasm), or may be disease-associated (e.g., a tissue sample from anormal portion of a diseased organ). Furthermore, tissues and/or cellslacking the “disease” designation may still be derived from sourcesdirectly or indirectly involved in a disease state or disorder, andtherefore may have a further utility in that disease state or disorder.In numerous cases where the tissue/cell source is a library, column 7identifies the vector used to generate the library. TABLE 4 CodeDescription Tissue Organ Cell Line Disease Vector AR022 a_Heart a_HeartAR023 a_Liver a_Liver AR024 a_mammary gland a_mammary gland AR025a_Prostate a_Prostate AR026 a_small intestine a_small intestine AR027a_Stomach a_Stomach AR028 Blood B cells Blood B cells AR029 Blood Bcells activated Blood B cells activated AR030 Blood B cells restingBlood B cells resting AR031 Blood T cells activated Blood T cellsactivated AR032 Blood T cells resting Blood T cells resting AR033 brainbrain AR034 breast breast AR035 breast cancer breast cancer AR036 CellLine CAOV3 Cell Line CAOV3 AR037 cell line PA-1 cell line PA-1 AR038cell line transformed cell line transformed AR039 colon colon AR040colon (9808co65R) colon (9808co65R) AR041 colon (9809co15) colon(9809co15) AR042 colon cancer colon cancer AR043 colon cancer(9808co64R) colon cancer (9808co64R) AR044 colon cancer 9809co14 coloncancer 9809co14 AR050 Donor II B Cells 24 hrs Donor II B Cells 24 hrsAR051 Donor II B Cells 72 hrs Donor II B Cells 72 hrs AR052 Donor IIB-Cells 24 hrs. Donor II B-Cells 24 hrs. AR053 Donor II B-Cells 72 hrsDonor II B-Cells 72 hrs AR054 Donor II Resting B Cells Donor II RestingB Cells AR055 Heart Heart AR056 Human Lung (clonetech) Human Lung(clonetech) AR057 Human Mammary Human Mammary (clontech) (clontech)AR058 Human Thymus Human Thymus (clonetech) (clonetech) AR059 Jurkat(unstimulated) Jurkat (unstimulated) AR060 Kidney Kidney AR061 LiverLiver AR062 Liver (Clontech) Liver (Clontech) AR063 Lymphocytes chronicLymphocytes chronic lymphocytic leukaemia lymphocytic leukaemia AR064Lymphocytes diffuse large Lymphocytes diffuse large B B cell lymphomacell lymphoma AR065 Lymphocytes follicular Lymphocytes follicularlymphoma lymphoma AR066 normal breast normal breast AR067 Normal Ovarian(4004901) Normal Ovarian (4004901) AR068 Normal Ovary 9508G045 NormalOvary 9508G045 AR069 Normal Ovary 9701G208 Normal Ovary 9701G208 AR070Normal Ovary 9806G005 Normal Ovary 9806G005 AR071 Ovarian Cancer OvarianCancer AR072 Ovarian Cancer Ovarian Cancer (9702G001) (9702G001) AR073Ovarian Cancer Ovarian Cancer (9707G029) (9707G029) AR074 Ovarian CancerOvarian Cancer (9804G011) (9804G011) AR075 Ovarian Cancer Ovarian Cancer(9806G019) (9806G019) AR076 Ovarian Cancer Ovarian Cancer (9807G017)(9807G017) AR077 Ovarian Cancer Ovarian Cancer (9809G001) (9809G001)AR078 ovarian cancer 15799 ovarian cancer 15799 AR079 Ovarian Cancer17717AID Ovarian Cancer 17717AID AR080 Ovarian Cancer Ovarian Cancer4004664B1 4004664B1 AR081 Ovarian Cancer Ovarian Cancer 4005315A14005315A1 AR082 ovarian cancer 94127303 ovarian cancer 94127303 AR083Ovarian Cancer 96069304 Ovarian Cancer 96069304 AR084 Ovarian Cancer9707G029 Ovarian Cancer 9707G029 AR085 Ovarian Cancer 9807G045 OvarianCancer 9807G045 AR086 ovarian cancer 9809G001 ovarian cancer 9809G001AR087 Ovarian Cancer Ovarian Cancer 9905C032RC 9905C032RC AR088 Ovariancancer 9907 C00 Ovarian cancer 9907 C00 3rd 3rd AR089 Prostate ProstateAR090 Prostate (clonetech) Prostate (clonetech) AR091 prostate cancerprostate cancer AR092 prostate cancer #15176 prostate cancer #15176AR093 prostate cancer #15509 prostate cancer #15509 AR094 prostatecancer #15673 prostate cancer #15673 AR095 Small Intestine (Clontech)Small Intestine (Clontech) AR096 Spleen Spleen AR097 Thymus T cellsactivated Thymus T cells activated AR098 Thymus T cells resting Thymus Tcells resting AR099 Tonsil Tonsil AR100 Tonsil geminal center Tonsilgeminal center centroblast centroblast AR101 Tonsil germinal center BTonsil germinal center B cell cell AR102 Tonsil lymph node Tonsil lymphnode AR103 Tonsil memory B cell Tonsil memory B cell AR104 Whole BrainWhole Brain AR105 Xenograft ES-2 Xenograft ES-2 AR106 Xenograft SW626Xenograft SW626 AR119 001: IL-2 001: IL-2 AR120 001: IL-2.1 001: IL-2.1AR121 001: IL-2_b 001: IL-2_b AR124 002: Monocytes untreated 002:Monocytes untreated (1 hr) (1 hr) AR125 002: Monocytes untreated 002:Monocytes untreated (5 hrs) (5 hrs) AR126 002: Control.1C 002:Control.1C AR127 002: IL2.1C 002: IL2.1C AR130 003: Placebo-treated Rat003: Placebo-treated Rat Lacrimal Gland Lacrimal Gland AR131 003:Placebo-treated Rat 003: Placebo-treated Rat Submandibular GlandSubmandibular Gland AR135 004: Monocytes untreated 004: Monocytesuntreated (5 hrs) (5 hrs) AR136 004: Monocytes untreated 004: Monocytesuntreated 1 hr 1 hr AR139 005: Placebo (48 hrs) 005: Placebo (48 hrs)AR140 006: pC4 (24 hrs) 006: pC4 (24 hrs) AR141 006: pC4 (48 hrs) 006:pC4 (48 hrs) AR152 007: PHA (1 hr) 007: PHA (1 hr) AR153 007: PHA (6HRS) 007: PHA (6 HRS) AR154 007: PMA (6 hrs) 007: PMA (6 hrs) AR155 008:1449_#2 008: 1449_#2 AR161 01: A - max 24 01: A - max 24 AR162 01: A -max 26 01: A - max 26 AR163 01: A - max 30 01: A - max 30 AR164 01: B -max 24 01: B - max 24 AR165 01: B - max 26 01: B - max 26 AR166 01: B -max 30 01: B - max 30 AR167 1449 Sample 1449 Sample AR168 3T3P10 1.0 uMinsulin 3T3P10 1.0 uM insulin AR169 3T3P10 10 nM Insulin 3T3P10 10 nMInsulin AR170 3T3P10 10 uM insulin 3T3P10 10 uM insulin AR171 3T3P10 NoInsulin 3T3P10 No Insulin AR172 3T3P4 3T3P4 AR173 Adipose (41892)Adipose (41892) AR174 Adipose Diabetic (41611) Adipose Diabetic (41611)AR175 Adipose Diabetic (41661) Adipose Diabetic (41661) AR176 AdiposeDiabetic (41689) Adipose Diabetic (41689) AR177 Adipose Diabetic (41706)Adipose Diabetic (41706) AR178 Adipose Diabetic (42352) Adipose Diabetic(42352) AR179 Adipose Diabetic (42366) Adipose Diabetic (42366) AR180Adipose Diabetic (42452) Adipose Diabetic (42452) AR181 Adipose Diabetic(42491) Adipose Diabetic (42491) AR182 Adipose Normal (41843) AdiposeNormal (41843) AR183 Adipose Normal (41893) Adipose Normal (41893) AR184Adipose Normal (42452) Adipose Normal (42452) AR185 Adrenal GlandAdrenal Gland AR186 Adrenal Gland + Whole Adrenal Gland + Whole BrainBrain AR187 B7(1 hr)+ (inverted) B7(1 hr)+ (inverted) AR188 Breast(18275A2B) Breast (18275A2B) AR189 Breast (4004199) Breast (4004199)AR190 Breast (4004399) Breast (4004399) AR191 Breast (4004943B7) Breast(4004943B7) AR192 Breast (4005570B1) Breast (4005570B1) AR193 BreastCancer Breast Cancer (4004127A30) (4004127A30) AR194 Breast CancerBreast Cancer (400443A21) (400443A21) AR195 Breast Cancer Breast Cancer(4004643A2) (4004643A2) AR196 Breast Cancer Breast Cancer (4004710A7)(4004710A7) AR197 Breast Cancer Breast Cancer (4004943A21) (4004943A21)AR198 Breast Cancer (400553A2) Breast Cancer (400553A2) AR199 BreastCancer Breast Cancer (9805C046R) (9805C046R) AR200 Breast Cancer BreastCancer (9806C012R) (9806C012R) AR201 Breast Cancer (ODQ Breast Cancer(ODQ 45913) 45913) AR202 Breast Cancer Breast Cancer (ODQ45913)(ODQ45913) AR203 Breast Cancer Breast Cancer (ODQ4591B) (ODQ4591B) AR204Colon Cancer (15663) Colon Cancer (15663) AR205 Colon Cancer ColonCancer (4005144A4) (4005144A4) AR206 Colon Cancer Colon Cancer(4005413A4) (4005413A4) AR207 Colon Cancer (4005570B1) Colon Cancer(4005570B1) AR208 Control RNA #1 Control RNA #1 AR209 Control RNA #2Control RNA #2 AR210 Cultured Preadipocyte Cultured Preadipocyte (blue)(blue) AR211 Cultured Preadipocyte Cultured Preadipocyte (Red) (Red)AR212 Donor II B-Cells 24 hrs Donor II B-Cells 24 hrs AR213 Donor IIResting B-Cells Donor II Resting B-Cells AR214 H114EP12 10 nM InsulinH114EP12 10 nM Insulin AR215 H114EP12 (10 nM insulin) H114EP12 (10 nMinsulin) AR216 H114EP12 (2.6 ug/ul) H114EP12 (2.6 ug/ul) AR217 H114EP12(3.6 ug/ul) H114EP12 (3.6 ug/ul) AR218 HUVEC #1 HUVEC #1 AR219 HUVEC #2HUVEC #2 AR221 L6 undiff. L6 undiff. AR222 L6 Undifferentiated L6Undifferentiated AR223 L6P8 + 10 nM Insulin L6P8 + 10 nM Insulin AR224L6P8 + HS L6P8 + HS AR225 L6P8 10 nM Insulin L6P8 10 nM Insulin AR226Liver (00-06-A007B) Liver (00-06-A007B) AR227 Liver (96-02-A075) Liver(96-02-A075) AR228 Liver (96-03-A144) Liver (96-03-A144) AR229 Liver(96-04-A138) Liver (96-04-A138) AR230 Liver (97-10-A074B) Liver(97-10-A074B) AR231 Liver (98-09-A242A) Liver (98-09-A242A) AR232 LiverDiabetic (1042) Liver Diabetic (1042) AR233 Liver Diabetic (41616) LiverDiabetic (41616) AR234 Liver Diabetic (41955) Liver Diabetic (41955)AR235 Liver Diabetic (42352R) Liver Diabetic (42352R) AR236 LiverDiabetic (42366) Liver Diabetic (42366) AR237 Liver Diabetic (42483)Liver Diabetic (42483) AR238 Liver Diabetic (42491) Liver Diabetic(42491) AR239 Liver Diabetic (99-09- Liver Diabetic (99-09- A281A)A281A) AR240 Lung Lung AR241 Lung (27270) Lung (27270) AR242 Lung(2727Q) Lung (2727Q) AR243 Lung Cancer (4005116A1) Lung Cancer(4005116A1) AR244 Lung Cancer (4005121A5) Lung Cancer (4005121A5) AR245Lung Cancer Lung Cancer (4005121A5)) (4005121A5)) AR246 Lung Cancer(4005340A4) Lung Cancer (4005340A4) AR247 Mammary Gland Mammary GlandAR248 Monocyte (CT) Monocyte (CT) AR249 Monocyte (OCT) Monocyte (OCT)AR250 Monocytes (CT) Monocytes (CT) AR251 Monocytes (INFG 18 hr)Monocytes (INFG 18 hr) AR252 Monocytes (INFG 18 hr) Monocytes (INFG 18hr) AR253 Monocytes (INFG 8-11) Monocytes (INFG 8-11) AR254 Monocytes (OCT) Monocytes (O CT) AR255 Muscle (91-01-A105) Muscle (91-01-A105) AR256Muscle (92-04-A059) Muscle (92-04-A059) AR257 Muscle (97-11-A056d)Muscle (97-11-A056d) AR258 Muscle (99-06-A210A) Muscle (99-06-A210A)AR259 Muscle (99-07-A203B) Muscle (99-07-A203B) AR260 Muscle(99-7-A203B) Muscle (99-7-A203B) AR261 Muscle Diabetic (42352R) MuscleDiabetic (42352R) AR262 Muscle Diabetic (42366) Muscle Diabetic (42366)AR263 NK-19 Control NK-19 Control AR264 NK-19 IL Treated 72 hrs NK-19 ILTreated 72 hrs AR265 NK-19 UK Treated 72 hrs. NK-19 UK Treated 72 hrs.AR266 Omentum Normal (94-08- Omentum Normal (94-08- B009) B009) AR267Omentum Normal (97-01- Omentum Normal (97-01- A039A) A039A) AR268Omentum Normal (97-04- Omentum Normal (97-04- A114C) A114C) AR269Omentum Normal (97-06- Omentum Normal (97-06- A117C) A117C) AR270Omentum Normal (97-09- Omentum Normal (97-09- B004C) B004C) AR271Ovarian Cancer Ovarian Cancer (17717AID) (17717AID) AR272 Ovarian CancerOvarian Cancer (9905C023RC) (9905C023RC) AR273 Ovarian Cancer OvarianCancer (9905C032RC) (9905C032RC) AR274 Ovary (9508G045) Ovary (9508G045)AR275 Ovary (9701G208) Ovary (9701G208) AR276 Ovary 9806G005 Ovary9806G005 AR277 Pancreas Pancreas AR278 Placebo Placebo AR279 rIL2Control rIL2 Control AR280 RSS288L RSS288L AR281 RSS288LC RSS288LC AR282Salivary Gland Salivary Gland AR283 Skeletal Muscle Skeletal MuscleAR284 Skeletal Muscle (91-01- Skeletal Muscle (91-01- A105) A105) AR285Skeletal Muscle (42180) Skeletal Muscle (42180) AR286 Skeletal Muscle(42386) Skeletal Muscle (42386) AR287 Skeletal Muscle (42461) SkeletalMuscle (42461) AR288 Skeletal Muscle (91-01- Skeletal Muscle (91-01-A105) A105) AR289 Skeletal Muscle (92-04- Skeletal Muscle (92-04- A059)A059) AR290 Skeletal Muscle (96-08- Skeletal Muscle (96-08- A171) A171)AR291 Skeletal Muscle (97-07- Skeletal Muscle (97-07- A190A) A190A)AR292 Skeletal Muscle Diabetic Skeletal Muscle Diabetic (42352) (42352)AR293 Skeletal Muscle Diabetic Skeletal Muscle Diabetic (42366) (42366)AR294 Skeletal Muscle Diabetic Skeletal Muscle Diabetic (42395) (42395)AR295 Skeletal Muscle Diabetic Skeletal Muscle Diabetic (42483) (42483)AR296 Skeletal Muscle Diabetic Skeletal Muscle Diabetic (42491) (42491)AR297 Skeletal Muscle Diabetic Skeletal Muscle Diabetic 42352 42352AR298 Skeletal Musle (42461) Skeletal Musle (42461) AR299 SmallIntestine Small Intestine AR300 Stomach Stomach AR301 T-Cell +HDPBQ71.fc T-Cell + HDPBQ71.fc 1449 1449 16 hrs 16 hrs AR302 T-Cell +HDPBQ71.fc T-Cell + HDPBQ71.fc 1449 1449 6 hrs 6 hrs AR303 T-Cell + IL216 hrs T-Cell + IL2 16 hrs AR304 T-Cell + IL2 6 hrs T-Cell + IL2 6 hrsAR306 T-Cell Untreated 16 hrs T-Cell Untreated 16 hrs AR307 T-CellUntreated 6 hrs T-Cell Untreated 6 hrs AR308 T-Cells 24 hours T-Cells 24hours AR309 T-Cells 24 hrs T-Cells 24 hrs AR310 T-Cells 24 hrs. T-Cells24 hrs. AR311 T-Cells 24 hrs T-Cells 24 hrs AR312 T-Cells 4 days T-Cells4 days AR313 Thymus Thymus AR314 TRE TRE AR315 TREC TREC AR316 VirtualMixture Virtual Mixture AR317 B lymphocyte, B lymphocyte, AR318 (non-T;non-B) (non-T; non-B) AR326 001 - 293 RNA (Vector 001 - 293 RNA (VectorControl) Control) AR327 001: Control 001: Control AR328 001: Control.1001: Control.1 AR355 Acute Lymphocyte Acute Lymphocyte Leukemia LeukemiaAR356 AML Patient #11 AML Patient #11 AR357 AML Patient #2 AML Patient#2 AR358 AML Patient #2 SGAH AML Patient #2 SGAH AR359 AML Patient#2 AMLPatient#2 AR360 Aorta Aorta AR361 B Cell B Cell AR362 B lymphoblast Blymphoblast AR363 B lymphocyte B lymphocyte AR364 B lymphocytes Blymphocytes AR365 B-cell B-cell AR366 B-Cells B-Cells AR367B-Lymphoblast B-Lymphoblast AR368 B-Lymphocytes B-Lymphocytes AR369Bladder Bladder AR370 Bone Marrow Bone Marrow AR371 Bronchial EpithelialCell Bronchial Epithelial Cell AR372 Bronchial Epithelial CellsBronchial Epithelial Cells AR373 Caco-2A Caco-2A AR374 Caco-2B Caco-2BAR375 Caco-2C Caco-2C AR376 Cardiac #1 Cardiac #1 AR377 Cardiac #2Cardiac #2 AR378 Chest Muscle Chest Muscle AR381 Dendritic CellDendritic Cell AR382 Dendritic cells Dendritic cells AR383 E. coli E.coli AR384 Epithelial Cells Epithelial Cells AR385 Esophagus EsophagusAR386 FPPS FPPS AR387 FPPSC FPPSC AR388 HepG2 Cell Line HepG2 Cell LineAR389 HepG2 Cell line Buffer 1 hr. HepG2 Cell line Buffer 1 hr. AR390HepG2 Cell line Buffer 06 hr HepG2 Cell line Buffer 06 hr AR391 HepG2Cell line Buffer 24 hr. HepG2 Cell line Buffer 24 hr. AR392 HepG2 Cellline Insulin 01 hr. HepG2 Cell line Insulin 01 hr. AR393 HepG2 Cell lineInsulin 06 hr. HepG2 Cell line Insulin 06 hr. AR394 HepG2 Cell lineInsulin 24 hr. HepG2 Cell line Insulin 24 hr. AR398 HMC-1 HMC-1 AR399HMCS HMCS AR400 HMSC HMSC AR401 HUVEC #3 HUVEC #3 AR402 HUVEC #4 HUVEC#4 AR404 KIDNEY NORMAL KIDNEY NORMAL AR405 KIDNEY TUMOR KIDNEY TUMORAR406 KIDNEY TUMOR AR407 Lymph Node Lymph Node AR408 MacrophageMacrophage AR409 Megakarioblast Megakarioblast AR410 Monocyte MonocyteAR411 Monocytes Monocytes AR412 Myocardium Myocardium AR413 Myocardium#3 Myocardium #3 AR414 Myocardium #4 Myocardium #4 AR415 Myocardium #5Myocardium #5 AR416 NK NK AR417 NK cell NK cell AR418 NK cells NK cellsAR419 NKYa NKYa AR420 NKYa019 NKYa019 AR421 Ovary Ovary AR422 Patient#11 Patient #11 AR423 Peripheral blood Peripheral blood AR424 PrimaryAdipocytes Primary Adipocytes AR425 Promyeloblast Promyeloblast AR427RSSWT RSSWT AR428 RSSWTC RSSWTC AR429 SW 480(G1) SW 480(G1) AR430 SW480(G2) SW 480(G2) AR431 SW 480(G3) SW 480(G3) AR432 SW 480(G4) SW480(G4) AR433 SW 480(G5) SW 480(G5) AR434 T Lymphoblast T LymphoblastAR435 T Lymphocyte T Lymphocyte AR436 T-Cell T-Cell AR438 T-Cell,T-Cell, AR439 T-Cells T-Cells AR440 T-lymphoblast T-lymphoblast AR441 Th1 Th 1 AR442 Th 2 Th 2 AR443 Th1 Th1 AR444 Th2 Th2 H0002 Human AdultHeart Human Adult Heart Heart Uni-ZAP XR H0004 Human Adult Spleen HumanAdult Spleen Spleen Uni-ZAP XR H0008 Whole 6 Week Old Uni-ZAP XR EmbryoH0009 Human Fetal Brain Uni-ZAP XR H0011 Human Fetal Kidney Human FetalKidney Kidney Uni-ZAP XR H0012 Human Fetal Kidney Human Fetal KidneyKidney Uni-ZAP XR H0013 Human 8 Week Whole Human 8 Week Old EmbryoEmbryo Uni-ZAP XR Embryo H0014 Human Gall Bladder Human Gall BladderGall Bladder Uni-ZAP XR H0015 Human Gall Bladder, Human Gall BladderGall Bladder Uni-ZAP XR fraction II H0022 Jurkat Cells Jurkat T-CellLine Lambda ZAP II H0024 Human Fetal Lung III Human Fetal Lung LungUni-ZAP XR H0026 Namalwa Cells Namalwa B-Cell Line, EBV Lambda ZAP IIimmortalized H0028 Human Old Ovary Human Old Ovary Ovary pBluescriptH0030 Human Placenta Uni-ZAP XR H0031 Human Placenta Human PlacentaPlacenta Uni-ZAP XR H0032 Human Prostate Human Prostate Prostate Uni-ZAPXR H0033 Human Pituitary Human Pituitary Uni-ZAP XR H0036 Human AdultSmall Human Adult Small Intestine Small Int. Uni-ZAP XR Intestine H0037Human Adult Small Human Adult Small Intestine Small Int. pBluescriptIntestine H0038 Human Testes Human Testes Testis Uni-ZAP XR H0039 HumanPancreas Tumor Human Pancreas Tumor Pancreas disease Uni-ZAP XR H0040Human Testes Tumor Human Testes Tumor Testis disease Uni-ZAP XR H0041Human Fetal Bone Human Fetal Bone Bone Uni-ZAP XR H0042 Human AdultPulmonary Human Adult Pulmonary Lung Uni-ZAP XR H0046 Human EndometrialTumor Human Endometrial Tumor Uterus disease Uni-ZAP XR H0049 HumanFetal Kidney Human Fetal Kidney Kidney Uni-ZAP XR H0050 Human FetalHeart Human Fetal Heart Heart Uni-ZAP XR H0051 Human Hippocampus HumanHippocampus Brain Uni-ZAP XR H0052 Human Cerebellum Human CerebellumBrain Uni-ZAP XR H0053 Human Adult Kidney Human Adult Kidney KidneyUni-ZAP XR H0056 Human Umbilical Vein, Human Umbilical Vein Umbilicalvein Uni-ZAP XR Endo. remake Endothelial Cells H0057 Human Fetal SpleenUni-ZAP XR H0059 Human Uterine Cancer Human Uterine Cancer Uterusdisease Lambda ZAP II H0060 Human Macrophage Human Macrophage Blood CellLine pBluescript H0061 Human Macrophage Human Macrophage Blood Cell LinepBluescript H0063 Human Thymus Human Thymus Thymus Uni-ZAP XR H0068Human Skin Tumor Human Skin Tumor Skin disease Uni-ZAP XR H0069 HumanActivated T-Cells Activated T-Cells Blood Cell Line Uni-ZAP XR H0071Human Infant Adrenal Human Infant Adrenal Gland Adrenal gland Uni-ZAP XRGland H0075 Human Activated T-Cells Activated T-Cells Blood Cell LineUni-ZAP XR (II) H0081 Human Fetal Epithelium Human Fetal Skin SkinUni-ZAP XR (Skin) H0083 HUMAN JURKAT Jurkat Cells Uni-ZAP XR MEMBRANEBOUND POLYSOMES H0085 Human Colon Human Colon Lambda ZAP II H0086 Humanepithelioid sarcoma Epithelioid Sarcoma, muscle Sk Muscle diseaseUni-ZAP XR H0087 Human Thymus Human Thymus pBluescript H0090 HumanT-Cell Lymphoma T-Cell Lymphoma T-Cell disease Uni-ZAP XR H0095 HumanGreater Omentum, Human Greater Omentum peritoneum Uni-ZAP XR RNA RemakeH0099 Human Lung Cancer, Human Lung Cancer Lung pBluescript subtractedH0100 Human Whole Six Week Human Whole Six Week Old Embryo Uni-ZAP XROld Embryo Embryo H0109 Human Macrophage, Macrophage Blood Cell LinepBluescript subtracted H0111 Human Placenta, Human Placenta PlacentapBluescript subtracted H0122 Human Adult Skeletal Human Skeletal MuscleSk Muscle Uni-ZAP XR Muscle H0123 Human Fetal Dura Mater Human FetalDura Mater Brain Uni-ZAP XR H0124 Human Human Rhabdomyosarcoma Sk Muscledisease Uni-ZAP XR Rhabdomyosarcoma H0125 Cem cells cyclohexamideCyclohexamide Treated Cem, Blood Cell Line Uni-ZAP XR treated Jurkat,Raji, and Supt H0130 LNCAP untreated LNCAP Cell Line Prostate Cell LineUni-ZAP XR H0134 Raji Cells, cyclohexamide Cyclohexamide Treated Cem,Blood Cell Line Uni-ZAP XR treated Jurkat, Raji, and Supt H0135 HumanSynovial Sarcoma Human Synovial Sarcoma Synovium Uni-ZAP XR H0136 SuptCells, cyclohexamide Cyclohexamide Treated Cem, Blood Cell Line Uni-ZAPXR treated Jurkat, Raji, and Supt H0140 Activated T-Cells, 8 hrs.Activated T-Cells Blood Cell Line Uni-ZAP XR H0144 Nine Week Old Early 9Wk Old Early Stage Human Embryo Uni-ZAP XR Stage Human H0150 HumanEpididymus Epididymis Testis Uni-ZAP XR H0151 Early Stage Human LiverHuman Fetal Liver Liver Uni-ZAP XR H0156 Human Adrenal Gland HumanAdrenal Gland Tumor Adrenal Gland disease Uni-ZAP XR Tumor H0159Activated T-Cells, 8 hrs., Activated T-Cells Blood Cell Line Uni-ZAP XRligation 2 H0163 Human Synovium Human Synovium Synovium Uni-ZAP XR H0166Human Prostate Cancer, Human Prostate Cancer, stage Prostate diseaseUni-ZAP XR Stage B2 fraction B2 H0169 Human Prostate Cancer, HumanProstate Cancer, Prostate disease Uni-ZAP XR Stage C fraction stage CH0170 12 Week Old Early Stage Twelve Week Old Early Embryo Uni-ZAP XRHuman Stage Human H0171 12 Week Old Early Stage Twelve Week Old EarlyEmbryo Uni-ZAP XR Human, II Stage Human H0172 Human Fetal Brain, HumanFetal Brain Brain Lambda ZAP II random primed H0178 Human Fetal BrainHuman Fetal Brain Brain Uni-ZAP XR H0179 Human Neutrophil HumanNeutrophil Blood Cell Line Uni-ZAP XR H0181 Human Primary Breast HumanPrimary Breast Breast disease Uni-ZAP XR Cancer Cancer H0188 HumanNormal Breast Human Normal Breast Breast Uni-ZAP XR H0194 HumanCerebellum, Human Cerebellum Brain pBluescript subtracted H0196 HumanCardiomyopathy, Human Cardiomyopathy Heart Uni-ZAP XR subtracted H0197Human Fetal Liver, Human Fetal Liver Liver Uni-ZAP XR subtracted H0201Human Hippocampus, Human Hippocampus Brain pBluescript subtracted H0208Early Stage Human Lung, Human Fetal Lung Lung pBluescript subtractedH0212 Human Prostate, subtracted Human Prostate Prostate pBluescriptH0213 Human Pituitary, Human Pituitary Uni-ZAP XR subtracted H0216 Suptcells, cyclohexamide Cyclohexamide Treated Cem, Blood Cell LinepBluescript treated, subtracted Jurkat, Raji, and Supt H0220 ActivatedT-Cells, 4 hrs, Activated T-Cells Blood Cell Line Uni-ZAP XR subtractedH0231 Human Colon, subtraction Human Colon pBluescript H0232 HumanColon, differential Human Colon pBluescript expression H0235 Human coloncancer, Human Colon Cancer, Liver pBluescript metaticized to liver,metasticized to liver subtraction H0239 Human Kidney Tumor Human KidneyTumor Kidney disease Uni-ZAP XR H0241 C7MCF7 cell line, estrogen C7MCF7Cell Line, estrogen Breast Cell Line Uni-ZAP XR treated, subtractiontreated H0242 Human Fetal Heart, Human Fetal Heart Heart pBluescriptDifferential (Fetal- Specific) H0244 Human 8 Week Whole Human 8 Week OldEmbryo Embryo Uni-ZAP XR Embryo, subtracted H0250 Human Activated HumanMonocytes Uni-ZAP XR Monocytes H0251 Human Chondrosarcoma HumanChondrosarcoma Cartilage disease Uni-ZAP XR H0252 Human OsteosarcomaHuman Osteosarcoma Bone disease Uni-ZAP XR H0253 Human adult testis,large Human Adult Testis Testis Uni-ZAP XR inserts H0254 Breast Lymphnode cDNA Breast Lymph Node Lymph Node Uni-ZAP XR library H0255 breastlymph node CDNA Breast Lymph Node Lymph Node Lambda ZAP II library H0257HL-60, PMA 4H HL-60 Cells, PMA stimulated Blood Cell Line Uni-ZAP XR 4HH0261 H. cerebellum, Enzyme Human Cerebellum Brain Uni-ZAP XR subtractedH0263 human colon cancer Human Colon Cancer Colon disease Lambda ZAP IIH0264 human tonsils Human Tonsil Tonsil Uni-ZAP XR H0265 ActivatedT-Cell T-Cells Blood Cell Line Uni-ZAP XR (12 hs)/ThiouridinelabelledEco H0266 Human Microvascular HMEC Vein Cell Line Lambda ZAP IIEndothelial Cells, fract. A H0268 Human Umbilical Vein HUVE CellsUmbilical vein Cell Line Lambda ZAP II Endothelial Cells, fract. A H0270HPAS (human pancreas, Human Pancreas Pancreas Uni-ZAP XR subtracted)H0271 Human Neutrophil, Human Neutrophil - Blood Cell Line Uni-ZAP XRActivated Activated H0272 HUMAN TONSILS, Human Tonsil Tonsil Uni-ZAP XRFRACTION 2 H0279 K562 cells K562 Cell line cell line Cell Line ZAPExpress H0280 K562 + PMA (36 hrs) K562 Cell line cell line Cell Line ZAPExpress H0284 Human OB MG63 control Human Osteoblastoma MG63 Bone CellLine Uni-ZAP XR fraction I cell line H0286 Human OB MG63 treated HumanOsteoblastoma MG63 Bone Cell Line Uni-ZAP XR (10 nM E2) fraction I cellline H0288 Human OB HOS control Human Osteoblastoma HOS Bone Cell LineUni-ZAP XR fraction I cell line H0292 Human OB HOS treated HumanOsteoblastoma HOS Bone Cell Line Uni-ZAP XR (10 nM E2) fraction I cellline H0293 WI 38 cells Uni-ZAP XR H0294 Amniotic Cells - TNF AmnioticCells - TNF Placenta Cell Line Uni-ZAP XR induced induced H0295 AmnioticCells - Primary Amniotic Cells - Primary Placenta Cell Line Uni-ZAP XRCulture Culture H0305 CD34 positive cells (Cord CD34 Positive Cells CordBlood ZAP Express Blood) H0306 CD34 depleted Buffy Coat CD34 DepletedBuffy Coat Cord Blood ZAP Express (Cord Blood) (Cord Blood) H0309 HumanChronic Synovitis Synovium, Chronic Synovium disease Uni-ZAP XRSynovitis/Osteoarthritis H0310 human caudate nucleus Brain Brain Uni-ZAPXR H0316 HUMAN STOMACH Human Stomach Stomach Uni-ZAP XR H0318 HUMAN BCELL Human B Cell Lymphoma Lymph Node disease Uni-ZAP XR LYMPHOMA H0327human corpus colosum Human Corpus Callosum Brain Uni-ZAP XR H0328 humanovarian cancer Ovarian Cancer Ovary disease Uni-ZAP XR H0329Dermatofibrosarcoma Dermatofibrosarcoma Skin disease Uni-ZAP XRProtuberance Protuberans H0331 Hepatocellular Tumor Hepatocellular TumorLiver disease Lambda ZAP II H0333 Hemangiopericytoma HemangiopericytomaBlood vessel disease Lambda ZAP II H0334 Kidney cancer Kidney CancerKidney disease Uni-ZAP XR H0339 Duodenum Duodenum Uni-ZAP XR H0341 BoneMarrow Cell Line Bone Marrow Cell Line Bone Marrow Cell Line Uni-ZAP XR(RS4; 11) RS4; 11 H0345 SKIN Skin - 4000868H Skin Uni-ZAP XR H0351Glioblastoma Glioblastoma Brain disease Uni-ZAP XR H0352 wilm''s tumorWilm''s Tumor disease Uni-ZAP XR H0354 Human Leukocytes Human LeukocytesBlood Cell Line pCMVSport 1 H0355 Human Liver Human Liver, normal AdultpCMVSport 1 H0356 Human Kidney Human Kidney Kidney pCMVSport 1 H0357 H.Normalized Fetal Liver, Human Fetal Liver Liver Uni-ZAP XR II H0362 HeLacell line HELA CELL LINE pSport1 H0366 L428 cell line L428 ZAP ExpressH0369 H. Atrophic Endometrium Atrophic Endometrium and Uni-ZAP XRmyometrium H0370 H. Lymph node breast Lymph node with Met. Breastdisease Uni-ZAP XR Cancer Cancer H0373 Human Heart Human Adult HeartHeart pCMVSport 1 H0374 Human Brain Human Brain pCMVSport 1 H0375 HumanLung Human Lung pCMVSport 1 H0379 Human Tongue, frac 1 Human TonguepSport1 H0380 Human Tongue, frac 2 Human Tongue pSport1 H0383 HumanProstate BPH, re- Human Prostate BPH Uni-ZAP XR excision H0388 HumanRejected Kidney, Human Rejected Kidney disease pBluescript 704re-excision H0390 Human Amygdala Human Amygdala Depression diseasepBluescript Depression, re-excision H0391 H. Meniingima, M6 HumanMeningima brain pSport1 H0392 H. Meningima, M1 Human Meningima brainpSport1 H0393 Fetal Liver, subtraction II Human Fetal Liver LiverpBluescript H0395 A1-CELL LINE Redd-Sternberg cell ZAP Express H0402CD34 depleted Buffy Coat CD34 Depleted Buffy Coat Cord Blood ZAP Express(Cord Blood), re-excision (Cord Blood) H0406 H Amygdala Depression,Human Amygdala Depression Uni-ZAP XR subtracted H0411 H Female Bladder,Adult Human Female Adult Bladder Bladder pSport1 H0412 Human umbilicalvein HUVE Cells Umbilical vein Cell Line pSport1 endothelial cells, IL-4induced H0413 Human Umbilical Vein HUVE Cells Umbilical vein Cell LinepSport1 Endothelial Cells, uninduced H0415 H. Ovarian Tumor, II, OvarianTumor, OV5232 Ovary disease pCMVSport OV5232 2.0 H0416 HumanNeutrophils, Human Neutrophil - Blood Cell Line pBluescript Activated,re-excision Activated H0417 Human Pituitary, Human Pituitary pBluescriptsubtracted VIII H0419 Bone Cancer, re-excision Bone Cancer Uni-ZAP XRH0421 Human Bone Marrow, re- Bone Marrow pBluescript excision H0422T-Cell PHA 16 hrs T-Cells Blood Cell Line pSport1 H0423 T-Cell PHA 24hrs T-Cells Blood Cell Line pSport1 H0424 Human Pituitary, subt IX HumanPituitary pBluescript H0427 Human Adipose Human Adipose, left pSport1hiplipoma H0428 Human Ovary Human Ovary Tumor Ovary pSport1 H0429 K562 +PMA (36 hrs), re- K562 Cell line cell line Cell Line ZAP Expressexcision H0431 H. Kidney Medulla, re- Kidney medulla Kidney pBluescriptexcision H0433 Human Umbilical Vein HUVE Cells Umbilical vein Cell LinepBluescript Endothelial cells, frac B, re-excision H0435 Ovarian Tumor10-3-95 Ovarian Tumor, OV350721 Ovary pCMVSport 2.0 H0436 Resting T-CellLibrary, II T-Cells Blood Cell Line pSport1 H0437 H Umbilical Vein HUVECells Umbilical vein Cell Line Lambda ZAP II Endothelial Cells, frac A,re-excision H0438 H. Whole Brain #2, re- Human Whole Brain #2 ZAPExpress excision H0439 Human Eosinophils Eosinophils pBluescript H0441H. Kidney Cortex, Kidney cortex Kidney pBluescript subtracted H0443 H.Adipose, subtracted Human Adipose, left pSport1 hiplipoma H0444 Spleenmetastic melanoma Spleen, Metastic malignant Spleen disease pSport1melanoma H0445 Spleen, Chronic Human Spleen, CLL Spleen disease pSport1lymphocytic leukemia H0450 CD34+cells, II CD34 positive cells pCMVSport2.0 H0455 H. Striatum Depression, Human Brain, Striatum BrainpBluescript subt Depression H0457 Human Eosinophils Human EosinophilspSport1 H0477 Human Tonsil, Lib 3 Human Tonsil Tonsil pSport1 H0478Salivary Gland, Lib 2 Human Salivary Gland Salivary gland pSport1 H0479Salivary Gland, Lib 3 Human Salivary Gland Salivary gland pSport1 H0483Breast Cancer cell line, Breast Cancer Cell line, pSport1 MDA 36 MDA 36H0484 Breast Cancer Cell line, Breast Cancer Cell line, pSport1angiogenic Angiogenic, 36T3 H0486 Hodgkin''s Lymphoma II Hodgkin''sLymphoma II disease pCMVSport 2.0 H0487 Human Tonsils, lib I HumanTonsils pCMVSport 2.0 H0488 Human Tonsils, Lib 2 Human Tonsils pCMVSport2.0 H0492 HL-60, RA 4h, Subtracted HL-60 Cells, RA stimulated Blood CellLine Uni-ZAP XR for 4H H0494 Keratinocyte Keratinocyte pCMVSport 2.0H0497 HEL cell line HEL cell line HEL 92.1.7 pSport1 H0505 HumanAstrocyte Human Astrocyte pSport1 H0506 Ulcerative Colitis Colon ColonpSport1 H0509 Liver, Hepatoma Human Liver, Hepatoma, Liver diseasepCMVSport patient 8 3.0 H0510 Human Liver, normal Human Liver, normal,Patient Liver pCMVSport # 8 3.0 H0518 pBMC stimulated w/ poly pBMCstimulated with poly pCMVSport I/C I/C 3.0 H0519 NTERA2, control NTERA2,Teratocarcinoma pCMVSport cell line 3.0 H0520 NTERA2 + retinoic acid,NTERA2, Teratocarcinoma pSport1 14 days cell line H0521 PrimaryDendritic Cells, lib 1 Primary Dendritic cells pCMVSport 3.0 H0522Primary Dendritic Primary Dendritic cells pCMVSport 3.0 cells, frac 2H0525 PCR, pBMC I/C treated pBMC stimulated with poly PCRII I/C H0528Poly[I]/Poly[C] Normal Poly[I]/Poly[C] Normal Lung pCMVSport 3.0 LungFibroblasts Fibroblasts H0529 Myoloid Progenitor Cell TF-1 Cell Line;Myoloid pCMVSport Line progenitor cell line 3.0 H0538 Merkel CellsMerkel cells Lymph node pSport1 H0539 Pancreas Islet Cell Tumor PancreasIslet Cell Tumour Pancreas disease pSport1 H0542 T Cell helper I HelperT cell pCMVSport 3.0 H0543 T cell helper II Helper T cell pCMVSport 3.0H0544 Human endometrial Human endometrial stromal pCMVSport 3.0 stromalcells cells H0545 Human endometrial Human endometrial stromal pCMVSport3.0 stromal cells-treated with cells-treated with proge progesteroneH0546 Human endometrial Human endometrial stromal pCMVSport stromalcells-treated with cells-treated with estra 3.0 estradiol H0547 NTERA2teratocarcinoma NTERA2, Teratocarcinoma pSport1 cell line + retinoicacid (14 cell line days) H0549 H. Epididiymus, caput & HumanEpididiymus, caput Uni-ZAP XR corpus and corpus H0550 H. Epididiymus,cauda Human Epididiymus, cauda Uni-ZAP XR H0551 Human Thymus StromalHuman Thymus Stromal pCMVSport Cells Cells 3.0 H0553 Human PlacentaHuman Placenta pCMVSport 3.0 H0555 Rejected Kidney, lib 4 Human RejectedKidney Kidney disease pCMVSport 3.0 H0556 Activated T- T-Cells BloodCell Line Uni-ZAP XR cell(12 h)/Thiouridine-re- excision H0559 HL-60,PMA 4H, re- HL-60 Cells, PMA stimulated Blood Cell Line Uni-ZAP XRexcision 4H H0560 KMH2 KMH2 pCMVSport 3.0 H0561 L428 L428 pCMVSport 3.0H0563 Human Fetal Brain, Human Fetal Brain pCMVSport normalized 50021F2.0 H0564 Human Fetal Brain, Human Fetal Brain pCMVSport normalizedC5001F 2.0 H0566 Human Fetal Human Fetal Brain pCMVSport Brain,normalized c50F 2.0 H0569 Human Fetal Brain, Human Fetal Brain pCMVSportnormalized CO 2.0 H0570 Human Fetal Brain, Human Fetal Brain pCMVSportnormalized C500H 2.0 H0571 Human Fetal Brain, Human Fetal BrainpCMVSport normalized C500HE 2.0 H0572 Human Fetal Brain, Human FetalBrain pCMVSport normalized AC5002 2.0 H0574 Hepatocellular Tumor; re-Hepatocellular Tumor Liver disease Lambda ZAP II excision H0575 HumanAdult Human Adult Pulmonary Lung Uni-ZAP XR Pulmonary; re-excision H0576Resting T-Cell; re-excision T-Cells Blood Cell Line Lambda ZAP II H0580Dendritic cells, pooled Pooled dendritic cells pCMVSport 3.0 H0581 HumanBone Marrow, Human Bone Marrow Bone Marrow pCMVSport 3.0 treated H0583 BCell lymphoma B Cell Lymphoma B Cell disease pCMVSport 3.0 H0585Activated T-Cells, 12 hrs, Activated T-Cells Blood Cell Line Uni-ZAP XRre-excision H0586 Healing groin wound, 6.5 healing groin wound, 6.5groin disease pCMVSport hours post incision hours post incision - 2/ 3.0H0587 Healing groin wound; 7.5 Groin-Feb. 19, 1997 groin diseasepCMVSport hours post incision 3.0 H0589 CD34 positive cells (cord CD34Positive Cells Cord Blood ZAP Express blood), re-ex H0590 Human adultsmall Human Adult Small Intestine Small Int. Uni-ZAP XR intestine,re-excision H0591 Human T-cell T-Cell Lymphoma T-Cell disease Uni-ZAP XRlymphoma; re-excision H0592 Healing groin wound - zero HGS wound healingproject; disease pCMVSport hr post-incision (control) abdomen 3.0 H0593Olfactory Olfactory epithelium from pCMVSport epithelium; nasalcavityroof of left nasal cacit 3.0 H0594 Human Lung Cancer; re- Human LungCancer Lung disease Lambda ZAP II excision H0595 Stomach cancer StomachCancer - 5383A disease Uni-ZAP XR (human); re-excision (human) H0596Human Colon Cancer; re- Human Colon Cancer Colon Lambda ZAP II excisionH0597 Human Colon; re-excision Human Colon Lambda ZAP II H0598 HumanStomach; re- Human Stomach Stomach Uni-ZAP XR excision H0599 Human AdultHeart; re- Human Adult Heart Heart Uni-ZAP XR excision H0600 HealingAbdomen Abdomen disease pCMVSport wound; 70&90 min post 3.0 incisionH0602 Healing Abdomen Abdomen disease pCMVSport Wound; 21&29 days post3.0 incision H0604 Human Pituitary, re- Human Pituitary pBluescriptexcision H0606 Human Primary Breast Human Primary Breast Breast diseaseUni-ZAP XR Cancer; re-excision Cancer H0609 H. Leukocytes, normalized H.Leukocytes pCMVSport 1 cot >500 A H0615 Human Ovarian Cancer OvarianCancer Ovary disease Uni-ZAP XR Reexcision H0616 Human Testes,Reexcision Human Testes Testis Uni-ZAP XR H0617 Human Primary BreastHuman Primary Breast Breast disease Uni-ZAP XR Cancer Reexcision CancerH0618 Human Adult Testes, Large Human Adult Testis Testis Uni-ZAP XRInserts, Reexcision H0619 Fetal Heart Human Fetal Heart Heart Uni-ZAP XRH0620 Human Fetal Kidney; Human Fetal Kidney Kidney Uni-ZAP XRReexcision H0622 Human Pancreas Tumor; Human Pancreas Tumor Pancreasdisease Uni-ZAP XR Reexcision H0623 Human Umbilical Vein; HumanUmbilical Vein Umbilical vein Uni-ZAP XR Reexcision Endothelial CellsH0624 12 Week Early Stage Twelve Week Old Early Embryo Uni-ZAP XR HumanII; Reexcision Stage Human H0625 Ku 812F Basophils Line Ku 812FBasophils pSport1 H0627 Saos2 Cells; Vitamin D3 Saos2 Cell Line; VitaminD3 pSport1 Treated Treated H0628 Human Pre-Differentiated HumanPre-Differentiated Uni-ZAP XR Adipocytes Adipocytes H0631 Saos2,Dexamethosome Saos2 Cell Line; pSport1 Treated Dexamethosome TreatedH0632 Hepatocellular Tumor; re- Hepatocellular Tumor Liver Lambda ZAP IIexcision H0633 Lung Carcinoma A549 TNFalpha activated A549- diseasepSport1 TNFalpha activated Lung Carcinoma H0634 Human Testes Tumor, re-Human Testes Tumor Testis disease Uni-ZAP XR excision H0635 HumanActivated T-Cells, Activated T-Cells Blood Cell Line Uni-ZAP XRre-excision H0637 Dendritic Cells From Dentritic cells from CD34 pSport1CD34 Cells cells H0638 CD40 activated monocyte CD40 activated monocytepSport1 dendridic cells dendridic cells H0640 Ficolled Human StromalFicolled Human Stromal Other Cells, Untreated Cells, Untreated H0641 LPSactivated derived LPS activated monocyte pSport1 dendritic cells deriveddendritic cells H0642 Hep G2 Cells, lambda Hep G2 Cells Other libraryH0643 Hep G2 Cells, PCR library Hep G2 Cells Other H0644 Human Placenta(re- Human Placenta Placenta Uni-ZAP XR excision) H0645 Fetal Heart,re-excision Human Fetal Heart Heart Uni-ZAP XR H0646 Lung, Cancer(4005313A3): Metastatic squamous cell pSport1 Invasive Poorly lungcarcinoma, poorly di Differentiated Lung Adenocarcinoma, H0647 Lung,Cancer (4005163B7): Invasive poorly differentiated disease pSport1Invasive, Poorly Diff. lung adenocarcinoma Adenocarcinoma, MetastaticH0648 Ovary, Cancer: (4004562B6) Papillary Cstic neoplasm of diseasepSport1 Papillary Serous low malignant potentia Cystic Neoplasm, LowMalignant Pot H0649 Lung, Normal: (4005313B1) Normal Lung pSport1 H0650B-Cells B-Cells pCMVSport 3.0 H0651 Ovary, Normal: Normal Ovary pSport1(9805C040R) H0652 Lung, Normal: (4005313B1) Normal Lung pSport1 H0653Stromal Cells Stromal Cells pSport1 H0656 B-cells (unstimulated) B-cells(unstimulated) pSport1 H0657 B-cells (stimulated) B-cells (stimulated)pSport1 H0658 Ovary, Cancer 9809C332- Poorly Ovary & disease pSport1(9809C332): Poorly differentiate Fallopian Tubes differentiatedadenocarcinoma H0659 Ovary, Cancer Grade II Papillary Carcinoma, Ovarydisease pSport1 (15395A1F): Grade II Ovary Papillary Carcinoma H0660Ovary, Cancer: Poorly differentiated disease pSport1 (15799A1F) Poorlycarcinoma, ovary differentiated carcinoma H0661 Breast, Cancer:(4004943A5) Breast cancer disease pSport1 H0662 Breast, Normal: NormalBreast - Breast pSport1 (4005522B2) #4005522(B2) H0663 Breast, Cancer:(4005522A2) Breast Cancer - Breast disease pSport1 #4005522(A2) H0664Breast, Cancer: Breast Cancer Breast disease pSport1 (9806C012R) H0665Stromal cells 3.88 Stromal cells 3.88 pSport1 H0666 Ovary, Cancer:(4004332A2) Ovarian Cancer, Sample disease pSport1 #4004332A2 H0667Stromal cells(HBM3.18) Stromal cell(HBM 3.18) pSport1 H0668 stromal cellclone 2.5 stromal cell clone 2.5 pSport1 H0670 Ovary, Cancer(4004650A3):Ovarian Cancer - 4004650A3 pSport1 Well-Differentiated MicropapillarySerous Carcinoma H0671 Breast, Cancer: Breast Cancer- Sample # pSport1(9802C02OE) 9802C02OE H0672 Ovary, Cancer: (4004576A8): OvarianCancer(4004576A8) Ovary pSport1 H0673 Human Prostate Cancer, HumanProstate Cancer, stage Prostate Uni-ZAP XR Stage B2; re-excision B2H0674 Human Prostate Cancer, Human Prostate Cancer, Prostate Uni-ZAP XRStage C; re-excission stage C H0675 Colon, Cancer: Colon Cancer9808C064R pCMVSport (9808C064R) 3.0 H0676 Colon, Cancer: Colon Cancer9808C064R pCMVSport (9808C064R)-total RNA 3.0 H0677 TNFR degenerateoligo B-Cells PCRII H0682 Serous Papillary serous papillary pCMVSportAdenocarcinoma adenocarcinoma 3.0 (9606G304SPA3B) H0683 Ovarian SerousPapillary Serous papillary pCMVSport Adenocarcinoma adenocarcinoma,stage 3C 3.0 (9804G01 H0684 Serous Papillary Ovarian Cancer- 9810G606Ovaries pCMVSport Adenocarcinoma 3.0 H0685 Adenocarcinoma of Ovary,Adenocarcinoma of Ovary, pCMVSport Human Cell Line, # Human Cell Line, #OVCAR- 3.0 OVCAR-3 H0686 Adenocarcinoma of Ovary, Adenocarcinoma ofOvary, pCMVSport Human Cell Line Human Cell Line, # SW-626 3.0 H0687Human normal Human normal Ovary pCMVSport ovary(#9610G215)ovary(#9610G215) 3.0 H0688 Human Ovarian Human Ovarian pCMVSportCancer(#9807G017) cancer(#9807G017), mRNA 3.0 from Maura Ru H0689Ovarian Cancer Ovarian Cancer, #9806G019 pCMVSport 3.0 H0692 BLySReceptor from B Cell Lymphoma B Cell pCMVSport Expression Cloning 3.0H0693 Normal Prostate Normal Prostate Tissue # pCMVSport #ODQ3958ENODQ3958EN 3.0 H0694 Prostate gland Prostate gland, prostate glandpCMVSport adenocarcinoma adenocarcinoma, mod/diff, 3.0 gleason N0006Human Fetal Brain Human Fetal Brain S0001 Brain frontal cortex Brainfrontal cortex Brain Lambda ZAP II S0002 Monocyte activatedMonocyte-activated blood Cell Line Uni-ZAP XR S0003 Human OsteoclastomaOsteoclastoma bone disease Uni-ZAP XR S0004 Prostate Prostate BPHProstate Lambda ZAP II S0006 Neuroblastoma Human Neural Blastoma diseasepCDNA S0007 Early Stage Human Brain Human Fetal Brain Uni-ZAP XR S0010Human Amygdala Amygdala Uni-ZAP XR S0011 STROMAL - Osteoclastoma bonedisease Uni-ZAP XR OSTEOCLASTOMA S0013 Prostate Prostate prostateUni-ZAP XR S0016 Kidney Pyramids Kidney pyramids Kidney Uni-ZAP XR S0022Human Osteoclastoma Osteoclastoma Stromal Cells Uni-ZAP XR StromalCells - unamplified S0024 Human Kidney Medulla - Human Kidney Medullaunamplified S0026 Stromal cell TF274 stromal cell Bone marrow Cell LineUni-ZAP XR S0027 Smooth muscle, serum Smooth muscle Pulmanary Cell LineUni-ZAP XR treated artery S0028 Smooth muscle, control Smooth musclePulmanary Cell Line Uni-ZAP XR artery S0029 brain stem Brain stem brainUni-ZAP XR S0031 Spinal cord Spinal cord spinal cord Uni-ZAP XR S0032Smooth muscle-ILb Smooth muscle Pulmanary Cell Line Uni-ZAP XR inducedartery S0036 Human Substantia Nigra Human Substantia Nigra Uni-ZAP XRS0037 Smooth muscle, IL1b Smooth muscle Pulmanary Cell Line Uni-ZAP XRinduced artery S0038 Human Whole Brain #2 - Human Whole Brain #2 ZAPExpress Oligo dT >1.5 Kb S0039 Hypothalamus Hypothalamus Brain Uni-ZAPXR S0040 Adipocytes Human Adipocytes from Uni-ZAP XR Osteoclastoma S0042Testes Human Testes ZAP Express S0044 Prostate BPH prostate BPH Prostatedisease Uni-ZAP XR S0045 Endothelial cells-control Endothelial cellendothelial cell- Cell Line Uni-ZAP XR lung S0046 Endothelial-inducedEndothelial cell endothelial cell- Cell Line Uni-ZAP XR lung S0049 HumanBrain, Striatum Human Brain, Striatum Uni-ZAP XR S0050 Human FrontalCortex, Human Frontal Cortex, disease Uni-ZAP XR SchizophreniaSchizophrenia S0051 Human Human Hypothalamus, disease Uni-ZAP XRHypothalmus, Schizophrenia Schizophrenia S0052 neutrophils control humanneutrophils blood Cell Line Uni-ZAP XR S0053 Neutrophils IL-1 and LPShuman neutrophil induced blood Cell Line Uni-ZAP XR induced S0106STRIATUM BRAIN disease Uni-ZAP XR DEPRESSION S0110 Brain Amygdala Braindisease Uni-ZAP XR Depression S0112 Hypothalamus Brain Uni-ZAP XR S0114Anergic T-cell Anergic T-cell Cell Line Uni-ZAP XR S0116 Bone marrowBone marrow Bone marrow Uni-ZAP XR S0122 Osteoclastoma-normalized AOsteoclastoma bone disease pBluescript S0124 Smooth muscle-edited ASmooth muscle Pulmanary Cell Line Uni-ZAP XR artery S0126 OsteoblastsOsteoblasts Knee Cell Line Uni-ZAP XR S0132 Epithelial-TNFa and INFAirway Epithelial Uni-ZAP XR induced S0134 Apoptotic T-cell apoptoticcells Cell Line Uni-ZAP XR S0136 PERM TF274 stromal cell Bone marrowCell Line Lambda ZAP II S0140 eosinophil-IL5 induced eosinophil lungCell Line Uni-ZAP XR S0142 Macrophage-oxLDL macrophage-oxidized LDLblood Cell Line Uni-ZAP XR treated S0144 Macrophage (GM-CSF Macrophage(GM-CSF Uni-ZAP XR treated) treated) S0148 Normal Prostate Prostateprostate Uni-ZAP XR S0150 LNCAP prostate cell line LNCAP Cell LineProstate Cell Line Uni-ZAP XR S0152 PC3 Prostate cell line PC3 prostatecell line Uni-ZAP XR S0176 Prostate, normal, Prostate prostate Uni-ZAPXR subtraction I S0182 Human B Cell 8866 Human B-Cell 8866 Uni-ZAP XRS0192 Synovial Fibroblasts Synovial Fibroblasts pSport1 (control) S0194Synovial hypoxia Synovial Fibroblasts pSport1 S0196 Synovial IL-1/TNFSynovial Fibroblasts pSport1 stimulated S0206 Smooth Muscle- HASTESmooth muscle Pulmanary Cell Line pBluescript normalized artery S0208Messangial cell, frac 1 Messangial cell pSport1 S0210 Messangial cell,frac 2 Messangial cell pSport1 S0212 Bone Marrow Stromal Bone MarrowStromal pSport1 Cell, untreated Cell, untreated S0214 HumanOsteoclastoma, re- Osteoclastoma bone disease Uni-ZAP XR excision S0216Neutrophils IL-1 and LPS human neutrophil induced blood Cell LineUni-ZAP XR induced S0218 Apoptotic T-cell, re- apoptotic cells Cell LineUni-ZAP XR excision S0220 H. hypothalamus, frac Hypothalamus Brain ZAPExpress A; re-excision S0222 H. Frontal H. Brain, Frontal Cortex, Braindisease Uni-ZAP XR cortex, epileptic; re-excision Epileptic S0242Synovial Fibroblasts Synovial Fibroblasts pSport1 (Il1/TNF), subt S0250Human Osteoblasts II Human Osteoblasts Femur disease pCMVSport 2.0 S0260Spinal Cord, re-excision Spinal cord spinal cord Uni-ZAP XR S0276Synovial hypoxia-RSF Synovial fobroblasts Synovial tissue pSport1subtracted (rheumatoid) S0278 H Macrophage (GM-CSF Macrophage (GM-CSFUni-ZAP XR treated), re-excision treated) S0280 Human Adipose Tissue,re- Human Adipose Tissue Uni-ZAP XR excision S0282 Brain Frontal Cortex,re- Brain frontal cortex Brain Lambda ZAP II excision S0294 Larynx tumorLarynx tumor Larynx, vocal disease pSport1 cord S0296 Normal lung Normallung Lung pSport1 S0298 Bone marrow Bone marrow Bone marrow pSport1stroma, treated stroma, treatedSB S0300 Frontal lobe, dementia; re-Frontal Lobe Brain Uni-ZAP XR excision dementia/Alzheimer''s S0308Spleen/normal Spleen normal pSport1 S0310 Normal trachea Normal tracheapSport1 S0312 Human Human osteoarthritic disease pSport1 osteoarthritic;fraction II cartilage S0314 Human Human osteoarthritic disease pSport1osteoarthritis; fraction I cartilage S0316 Human Normal Human NormalCartilage pSport1 Cartilage, Fraction I S0318 Human Normal CartilageHuman Normal Cartilage pSport1 Fraction II S0328 Palate carcinoma Palatecarcinoma Uvula disease pSport1 S0330 Palate normal Palate normal UvulapSport1 S0334 Human Normal Cartilage Human Normal Cartilage pSport1Fraction III S0338 Human Osteoarthritic Human osteoarthritic diseasepSport1 Cartilage Fraction III cartilage S0340 Human OsteoarthriticHuman osteoarthritic disease pSport1 Cartilage Fraction IV cartilageS0342 Adipocytes; re-excision Human Adipocytes from Uni-ZAP XROsteoclastoma S0344 Macrophage-oxLDL; re- macrophage-oxidized LDL bloodCell Line Uni-ZAP XR excision treated S0346 Human Amygdala; re- AmygdalaUni-ZAP XR excision S0352 Larynx Carcinoma Larynx carcinoma diseasepSport1 S0354 Colon Normal II Colon Normal Colon pSport1 S0356 ColonCarcinoma Colon Carcinoma Colon disease pSport1 S0358 Colon Normal IIIColon Normal Colon pSport1 S0360 Colon Tumor II Colon Tumor Colondisease pSport1 S0362 Human Gastrocnemius Gastrocnemius muscle pSport1S0364 Human Quadriceps Quadriceps muscle pSport1 S0366 Human SoleusSoleus Muscle pSport1 S0370 Larynx carcinoma II Larynx carcinoma diseasepSport1 S0372 Larynx carcinoma III Larynx carcinoma disease pSport1S0374 Normal colon Normal colon pSport1 S0376 Colon Tumor Colon Tumordisease pSport1 S0378 Pancreas normal PCA4 No Pancreas Normal PCA4 NopSport1 S0380 Pancreas Tumor PCA4 Tu Pancreas Tumor PCA4 Tu diseasepSport1 S0386 Human Whole Brain, re- Whole brain Brain ZAP Expressexcision S0388 Human Human Hypothalamus, disease Uni-ZAP XRHypothalamus, schizophrenia, Schizophrenia re-excision S0390 Smoothmuscle, control; Smooth muscle Pulmanary Cell Line Uni-ZAP XRre-excision artery S0392 Salivary Gland Salivary gland; normal pSport1S0398 Testis; normal Testis; normal pSport1 S0400 Brain; normal Brain;normal pSport1 S0404 Rectum normal Rectum, normal pSport1 S0406 Rectumtumour Rectum tumour pSport1 S0408 Colon, normal Colon, normal pSport1S0410 Colon, tumour Colon, tumour pSport1 S0412 Temporal cortex-Temporal cortex, alzheimer disease Other Alzheizmer; subtracted S0414Hippocampus, Alzheimer Hippocampus, Alzheimer Other SubtractedSubtracted S0418 CHME Cell Line; treated 5 hrs CHME Cell Line; treatedpCMVSport 3.0 S0420 CHME Cell Line, untreated CHME Cell line, untreatetdpSport1 S0422 Mo7e Cell Line GM-CSF Mo7e Cell Line GM-CSF pCMVSporttreated (1 ng/ml) treated (1 ng/ml) 3.0 S0424 TF-1 Cell Line GM-CSF TF-1Cell Line GM-CSF pSport1 Treated Treated S0426 Monocyte activated; re-Monocyte-activated blood Cell Line Uni-ZAP XR excision S0428 Neutrophilscontrol; re- human neutrophils blood Cell Line Uni-ZAP XR excision S0430Aryepiglottis Normal Aryepiglottis Normal pSport1 S0432 Sinus piniformisTumour Sinus piniformis Tumour pSport1 S0434 Stomach Normal StomachNormal disease pSport1 S0436 Stomach Tumour Stomach Tumour diseasepSport1 S0438 Liver Normal Met5No Liver Normal Met5No pSport1 S0440Liver Tumour Met 5 Tu Liver Tumour pSport1 S0442 Colon Normal ColonNormal pSport1 S0444 Colon Tumor Colon Tumour disease pSport1 S0446Tongue Tumour Tongue Tumour pSport1 S0448 Larynx Normal Larynx NormalpSport1 S0450 Larynx Tumour Larynx Tumour pSport1 S0452 Thymus ThymuspSport1 S0458 Thyroid Normal (SDCA2 Thyroid normal pSport1 No) S0460Thyroid Tumour Thyroid Tumour pSport1 S0462 Thyroid Thyroiditis ThyroidThyroiditis pSport1 S0464 Larynx Normal Larynx Normal pSport1 S0468Ea.hy.926 cell line Ea.hy.926 cell line pSport1 S0474 Human bloodplatelets Platelets Blood platelets Other S3012 Smooth Muscle SerumSmooth muscle Pulmanary Cell Line pBluescript Treated, Norm artery S3014Smooth muscle, serum Smooth muscle Pulmanary Cell Line pBluescriptinduced, re-exc artery S6014 H. hypothalamus, frac A Hypothalamus BrainZAP Express S6016 H. Frontal Cortex, H. Brain, Frontal Cortex, Braindisease Uni-ZAP XR Epileptic Epileptic S6022 H. Adipose Tissue HumanAdipose Tissue Uni-ZAP XR S6024 Alzheimers, spongy changeAlzheimer''s/Spongy change Brain disease Uni-ZAP XR S6026 Frontal Lobe,Dementia Frontal Lobe Brain Uni-ZAP XR dementia/Alzheimer''s S6028 HumanManic Depression Human Manic depression Brain disease Uni-ZAP XR Tissuetissue T0001 Human Brown Fat Brown Fat pBluescript SK− T0002 ActivatedT-cells Activated T-Cell, PBL Blood Cell Line pBluescript fraction SK−T0003 Human Fetal Lung Human Fetal Lung pBluescript SK− T0004 HumanWhite Fat Human White Fat pBluescript SK− T0006 Human Pineal Gland HumanPinneal Gland pBluescript SK− T0010 Human Infant Brain Human InfantBrain Other T0023 Human Pancreatic Human Pancreatic Carcinoma diseasepBluescript Carcinoma SK− T0039 HSA 172 Cells Human HSA172 cell linepBluescript SK− T0040 HSC172 cells SA172 Cells pBluescript SK− T0041Jurkat T-cell G1 phase Jurkat T-cell pBluescript SK− T0042 JurkatT-Cell, S phase Jurkat T-Cell Line pBluescript SK− T0048 Human AorticHuman Aortic Endothilium pBluescript Endothelium SK− T0049 Aortaendothelial cells + TNF-a Aorta endothelial cells pBluescript SK− T0060Human White Adipose Human White Fat pBluescript SK− T0067 Human ThyroidHuman Thyroid pBluescript SK− T0068 Normal Ovary, Normal Ovary,pBluescript Premenopausal Premenopausal SK− T0069 Human Uterus, normalHuman Uterus, normal pBluescript SK− T0070 Human Adrenal Gland HumanAdrenal Gland pBluescript SK− T0071 Human Bone Marrow Human Bone MarrowpBluescript SK− T0082 Human Adult Retina Human Adult Retina pBluescriptSK− T0104 HCC cell line metastisis to pBluescript liver SK− T0109 Human(HCC) cell line pBluescript liver (mouse) metastasis, SK− remake T0110Human colon carcinoma pBluescript (HCC) cell line, remake SK− T0114Human (Caco-2) cell line, pBluescript adenocarcinoma, colon, SK− remakeT0115 Human Colon Carcinoma pBluescript (HCC) cell line SK− L0002 AtriumcDNA library Human heart L0005 Clontech human aorta polyA+ mRNA (#6572)L0009 EST from 8p21.3-p22 L0021 Human adult (K. Okubo) L0022 Human adultlung 3″ directed MboI cDNA L0032 Human chromosome 12p cDNAs L0040 Humancolon mucosa L0041 Human epidermal keratinocyte L0055 Human promyelocyteL0065 Liver HepG2 cell line. L0105 Human aorta polyA+ aorta (TFujiwara)L0109 Human brain cDNA brain L0142 Human placenta cDNA placenta(TFujiwara) L0143 Human placenta polyA+ placenta (TFujiwara) L0157 Humanfetal brain brain (TFujiwara) L0163 Human heart cDNA heart (YNakamura)L0351 Infant brain, Bento Soares BA, M13-derived L0352 Normalized infantbrain, BA, Bento Soares M13-derived L0361 Stratagene ovary ovaryBluescript SK (#937217) L0362 Stratagene ovarian cancer Bluescript SK−(#937219) L0363 NCI_CGAP_GC2 germ cell tumor Bluescript SK− L0364NCI_CGAP_GC5 germ cell tumor Bluescript SK− L0366 Stratagene schizobrain schizophrenic brain S-11 Bluescript SK− S11 frontal lobe L0369NCI_CGAP_AA1 adrenal adenoma adrenal gland Bluescript SK− L0371NCI_CGAP_Br3 breast tumor breast Bluescript SK− L0372 NCI_CGAP_Co12colon tumor colon Bluescript SK− L0373 NCI_CGAP_Co11 tumor colonBluescript SK− L0374 NCI_CGAP_Co2 tumor colon Bluescript SK− L0375NCI_CGAP_Kid6 kidney tumor kidney Bluescript SK− L0376 NCI_CGAP_Lar1larynx larynx Bluescript SK− L0378 NCI_CGAP_Lu1 lung tumor lungBluescript SK− L0381 NCI_CGAP_HN4 squamous cell carcinoma pharynxBluescript SK− L0382 NCI_CGAP_Pr25 epithelium (cell line) prostateBluescript SK− L0383 NCI_CGAP_Pr24 invasive tumor (cell line) prostateBluescript SK− L0384 NCI_CGAP_Pr23 prostate tumor prostate BluescriptSK− L0387 NCI_CGAP_GCB0 germinal center B-cells tonsil Bluescript SK−L0388 NCI_CGAP_HN6 normal gingiva (cell line from Bluescript SK−immortalized kerati L0411 1-NIB Lafmid BA L0414 b4HB3MA Lafmid BA L0422b4HB3MA-Cot12-HAP-B Lafmid BA L0435 Infant brain, LLNL array lafmid BAof Dr. M. Soares 1NIB L0438 normalized infant brain total brain brainlafmid BA cDNA L0439 Soares infant brain 1NIB whole brain Lafmid BAL0442 4HB3MK Lafmid BK L0455 Human retina cDNA retina eye lambda gt10randomly primed sublibrary L0456 Human retina cDNA retina eye lambdagt10 Tsp509I-cleaved sublibrary L0457 multi-tissue normalizedmulti-tissue pooled lambda gt10 short-fragment L0468 HE6W lambda zapL0471 Human fetal heart, Lambda Lambda ZAP ZAP Express Express L0475KG1-a Lambda Zap KG1-a Lambda Zap Express cDNA library Express(Stratagene) L0481 CD34+DIRECTIONAL Lambda ZAPII L0483 Human pancreaticislet Lambda ZAPII L0485 STRATAGENE Human skeletal muscle leg muscleLambda ZAPII skeletal muscle cDNA library, cat. #936215. L0493NCI_CGAP_Ov26 papillary serous carcinoma ovary pAMP1 L0497 NCI_CGAP_HSC4CD34+, CD38− from normal bone marrow pAMP1 bone marrow donor L0498NCI_CGAP_HSC3 CD34+, T negative, patient bone marrow pAMP1 with chronicmyelogenou L0500 NCI_CGAP_Brn20 oligodendroglioma brain pAMP1 L0504NCI_CGAP_Br13 breast carcinoma in situ breast pAMP1 L0512 NCI_CGAP_Ov36borderline ovarian carcinoma ovary pAMP1 L0514 NCI_CGAP_Ov31 papillaryserous carcinoma ovary pAMP1 L0515 NCI_CGAP_Ov32 papillary serouscarcinoma ovary pAMP1 L0517 NCI_CGAP_Pr1 pAMP10 L0518 NCI_CGAP_Pr2pAMP10 L0519 NCI_CGAP_Pr3 pAMP10 L0520 NCI_CGAP_Alv1 alveolarrhabdomyosarcoma pAMP10 L0521 NCI_CGAP_Ew1 Ewing''s sarcoma pAMP10 L0523NCI_CGAP_Lip2 liposarcoma pAMP10 L0526 NCI_CGAP_Pr12 metastatic prostatebone pAMP10 lesion L0527 NCI_CGAP_Ov2 ovary pAMP10 L0528 NCI_CGAP_Pr5prostate pAMP10 L0529 NCI_CGAP_Pr6 prostate pAMP10 L0530 NCI_CGAP_Pr8prostate pAMP10 L0531 NCI_CGAP_Pr20 prostate metastasis, liver pAMP10L0533 NCI_CGAP_HSC1 stem cells bone marrow pAMP10 L0534 Chromosome 7Fetal Brain brain brain pAMP10 cDNA Library L0535 NCI_CGAP_Br5infiltrating ductal carcinoma breast pAMP10 L0539 Chromosome 7 Placentalplacenta pAMP10 cDNA Library L0540 NCI_CGAP_Pr10 invasive prostate tumorprostate pAMP10 L0542 NCI_CGAP_Pr11 normal prostatic epithelial prostatepAMP10 cells L0547 NCI_CGAP_Pr16 tumor prostate pAMP10 L0549NCI_CGAP_HN10 carcinoma in situ from pAMP10 retromolar trigone L0550NCI_CGAP_HN9 normal squamous epithelium pAMP10 from retromolar trigoneL0559 NCI_CGAP_Ov39 papillary serous ovarian ovary pAMP10 metastasisL0561 NCI_CGAP_HN11 normal squamous epithelium tongue pAMP10 L0562Chromosome 7 HeLa HeLa cell line; pAMP10 cDNA Library ATCC L0563 HumanBone Marrow bone marrow pBluescript Stromal Fibroblast L0564 Jia bonemarrow stroma bone marrow stroma pBluescript L0565 Normal HumanTrabecular Bone Hip pBluescript Bone Cells L0581 Stratagene liver(#937224) liver pBluescript SK L0587 Stratagene colon HT29 pBluescript(#937221) SK− L0588 Stratagene endothelial cell pBluescript 937223 SK−L0589 Stratagene fetal retina pBluescript 937202 SK− L0590 Stratagenefibroblast pBluescript (#937212) SK− L0591 Stratagene HeLa cell s3pBluescript 937216 SK− L0592 Stratagene hNT neuron pBluescript (#937233)SK− L0593 Stratagene neuroepithelium pBluescript (#937231) SK− L0594Stratagene neuroepithelium pBluescript NT2RAMI 937234 SK− L0595Stratagene NT2 neuronal neuroepithelial cells brain pBluescriptprecursor 937230 SK− L0596 Stratagene colon (#937204) colon pBluescriptSK− L0597 Stratagene corneal stroma cornea pBluescript (#937222) SK−L0598 Morton Fetal Cochlea cochlea ear pBluescript SK− L0599 Stratagenelung (#937210) lung pBluescript SK− L0600 Weizmann Olfactory olfactoryepithelium nose pBluescript Epithelium SK− L0601 Stratagene pancreaspancreas pBluescript (#937208) SK− L0602 Pancreatic Islet pancreaticislet pancreas pBluescript SK− L0603 Stratagene placenta placentapBluescript (#937225) SK− L0604 Stratagene muscle 937209 muscle skeletalmuscle pBluescript SK− L0605 Stratagene fetal spleen fetal spleen spleenpBluescript (#937205) SK− L0606 NCI_CGAP_Lym5 follicular lymphoma lymphnode pBluescript SK− L0607 NCI_CGAP_Lym6 mantle cell lymphoma lymph nodepBluescript SK− L0608 Stratagene lung carcinoma lung carcinoma lungNCI-H69 pBluescript 937218 SK− L0612 Schiller oligodendrogliomaoligodendroglioma brain pBluescript SK− (Stratagene) L0615 22 week oldhuman fetal pBluescriptII SK(−) liver cDNA library L0619 Chromosome 9exon II pBluescriptIIKS+ L0622 HM1 pcDNAII (Invitrogen) L0623 HM3pectoral muscle (after pcDNAII mastectomy) (Invitrogen) L0625NCI_CGAP_AR1 bulk alveolar tumor pCMV-SPORT2 L0626 NCI_CGAP_GC1 bulkgerm cell seminoma pCMV-SPORT2 L0627 NCI_CGAP_Co1 bulk tumor colonpCMV-SPORT2 L0628 NCI_CGAP_Ov1 ovary bulk tumor ovary pCMV-SPORT2 L0629NCI_CGAP_Me13 metastatic melanoma to bowel (skin pCMV-SPORT4 bowelprimary) L0630 NCI_CGAP_CNS1 substantia nigra brain pCMV-SPORT4 L0631NCI_CGAP_Br7 breast pCMV-SPORT4 L0635 NCI_CGAP_PNS1 dorsal root ganglionperipheral pCMV-SPORT4 nervous system L0636 NCI_CGAP_Pit1 four pooledpituitary brain pCMV-SPORT6 adenomas L0637 NCI_CGAP_Brn53 three pooledmeningiomas brain pCMV-SPORT6 L0638 NCI_CGAP_Brn35 tumor, 5 pooled (seebrain pCMV-SPORT6 description) L0639 NCI_CGAP_Brn52 tumor, 5 pooled (seebrain pCMV-SPORT6 description) L0640 NCI_CGAP_Br18 four pooledhigh-grade breast pCMV-SPORT6 tumors, including two prima L0641NCI_CGAP_Co17 juvenile granulosa tumor colon pCMV-SPORT6 L0642NCI_CGAP_Co18 moderately differentiated colon pCMV-SPORT6 adenocarcinomaL0643 NCI_CGAP_Co19 moderately differentiated colon pCMV-SPORT6adenocarcinoma L0644 NCI_CGAP_Co20 moderately differentiated colonpCMV-SPORT6 adenocarcinoma L0645 NCI_CGAP_Co21 moderately differentiatedcolon pCMV-SPORT6 adenocarcinoma L0646 NCI_CGAP_Co14moderately-differentiated colon pCMV-SPORT6 adenocarcinoma L0647NCI_CGAP_Sar4 five pooled sarcomas, connective pCMV-SPORT6 includingmyxoid tissue liposarcoma L0648 NCI_CGAP_Eso2 squamous cell carcinomaesophagus pCMV-SPORT6 L0649 NCI_CGAP_GU1 2 pooled high-gradegenitourinary pCMV-SPORT6 transitional cell tumors tract L0650NCI_CGAP_Kid13 2 pooled Wilms'' tumors, one kidney pCMV-SPORT6 primaryand one metast L0651 NCI_CGAP_Kid8 renal cell tumor kidney pCMV-SPORT6L0652 NCI_CGAP_Lu27 four pooled poorly- lung pCMV-SPORT6 differentiatedadenocarcinomas L0653 NCI_CGAP_Lu28 two pooled squamous cell lungpCMV-SPORT6 carcinomas L0654 NCI_CGAP_Lu31 lung, cell line pCMV-SPORT6L0655 NCI_CGAP_Lym12 lymphoma, follicular mixed lymph node pCMV-SPORT6small and large cell L0656 NCI_CGAP_Ov38 normal epithelium ovarypCMV-SPORT6 L0657 NCI_CGAP_Ov23 tumor, 5 pooled (see ovary pCMV-SPORT6description) L0658 NCI_CGAP_Ov35 tumor, 5 pooled (see ovary pCMV-SPORT6description) L0659 NCI_CGAP_Pan1 adenocarcinoma pancreas pCMV-SPORT6L0661 NCI_CGAP_Mel15 malignant melanoma, skin pCMV-SPORT6 metastatic tolymph node L0662 NCI_CGAP_Gas4 poorly differentiated stomach pCMV-SPORT6adenocarcinoma with signet r L0663 NCI_CGAP_Ut2moderately-differentiated uterus pCMV-SPORT6 endometrial adenocarcinoL0664 NCI_CGAP_Ut3 poorly-differentiated uterus pCMV-SPORT6 endometrialadenocarcinoma, L0665 NCI_CGAP_Ut4 serous papillary carcinoma, uteruspCMV-SPORT6 high grade, 2 pooled t L0666 NCI_CGAP_Ut1well-differentiated uterus pCMV-SPORT6 endometrial adenocarcinoma, 7L0667 NCI_CGAP_CML1 myeloid cells, 18 pooled whole blood pCMV-SPORT6 CMLcases, BCR/ABL rearra L0684 Stanley Frontal SB pool 1 frontal lobe (seedescription) brain pCR2.1-TOPO (Invitrogen) L0710 NIH_MGC_7 small cellcarcinoma lung MGC3 pOTB7 L0717 Gessler Wilms tumor pSPORT1 L0718 Testis5 pSPORT1 L0731 Soares_pregnant_uterus_NbHPU uterus pT7T3-Pac L0738Human colorectal cancer pT7T3D L0740 Soares melanocyte 2NbHM melanocytepT7T3D (Pharmacia) with a modified polylinker L0741 Soares adult brainbrain pT7T3D N2b4HB55Y (Pharmacia) with a modified polylinker L0742Soares adult brain brain pT7T3D N2b5HB55Y (Pharmacia) with a modifiedpolylinker L0743 Soares breast 2NbHBst breast pT7T3D (Pharmacia) with amodified polylinker L0744 Soares breast 3NbHBst breast pT7T3D(Pharmacia) with a modified polylinker L0745 Soares retina N2b4HR retinaeye pT7T3D (Pharmacia) with a modified polylinker L0746 Soares retinaN2b5HR retina eye pT7T3D (Pharmacia) with a modified polylinker L0747Soares_fetal_heart_NbHH19W heart pT7T3D (Pharmacia) with a modifiedpolylinker L0748 Soares fetal liver spleen Liver and pT7T3D 1NFLS Spleen(Pharmacia) with a modified polylinker L0749Soares_fetal_liver_spleen_1NFLS_S1 Liver and pT7T3D Spleen (Pharmacia)with a modified polylinker L0750 Soares_fetal_lung_NbHL19W lung pT7T3D(Pharmacia) with a modified polylinker L0751 Soares ovary tumor ovariantumor ovary pT7T3D (Pharmacia) NbHOT with a modified polylinker L0752Soares_parathyroid_tumor_NbHPA parathyroid tumor parathyroid pT7T3Dgland (Pharmacia) with a modified polylinker L0753Soares_pineal_gland_N3HPG pineal gland pT7T3D (Pharmacia) with amodified polylinker L0754 Soares placenta Nb2HP placenta pT7T3D(Pharmacia) with a modified polylinker L0755Soares_placenta_8to9weeks_2NbHP8to9W placenta pT7T3D (Pharmacia) with amodified polylinker L0756 Soares_multiple_sclerosis_2NbHMSP multiplesclerosis lesions pT7T3D (Pharmacia) with a modified polylinker V_TYPEL0757 Soares_senescent_fibroblasts_NbHSF senescent fibroblast pT7T3D(Pharmacia) with a modified polylinker V_TYPE L0758 Soares_testis_NHTpT7T3D-Pac (Pharmacia) with a modified polylinker L0759Soares_total_fetus_Nb2HF8_9w pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0761 NCI_CGAP_CLL1 B-cell, chronic lymphotic pT7T3D-Pac(Pharmacia) leukemia with a modified polylinker L0762 NCI_CGAP_Br1.1breast pT7T3D-Pac (Pharmacia) with a modified polylinker L0763NCI_CGAP_Br2 breast pT7T3D-Pac (Pharmacia) with a modified polylinkerL0764 NCI_CGAP_Co3 colon pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0765 NCI_CGAP_Co4 colon pT7T3D-Pac (Pharmacia) with amodified polylinker L0766 NCI_CGAP_GCB1 germinal center B cellpT7T3D-Pac (Pharmacia) with a modified polylinker L0767 NCI_CGAP_GC3pooled germ cell tumors pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0768 NCI_CGAP_GC4 pooled germ cell tumors pT7T3D-Pac(Pharmacia) with a modified polylinker L0769 NCI_CGAP_Brn25 anaplasticoligodendroglioma brain pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0770 NCI_CGAP_Brn23 glioblastoma (pooled) brain pT7T3D-Pac(Pharmacia) with a modified polylinker L0771 NCI_CGAP_Co8 adenocarcinomacolon pT7T3D-Pac (Pharmacia) with a modified polylinker L0772NCI_CGAP_Co10 colon tumor RER+ colon pT7T3D-Pac (Pharmacia) with amodified polylinker L0773 NCI_CGAP_Co9 colon tumor RER+ colon pT7T3D-Pac(Pharmacia) with a modified polylinker L0774 NCI_CGAP_Kid3 kidneypT7T3D-Pac (Pharmacia) with a modified polylinker L0775 NCI_CGAP_Kid5 2pooled tumors (clear cell kidney pT7T3D-Pac type) (Pharmacia) with amodified polylinker L0776 NCI_CGAP_Lu5 carcinoid lung pT7T3D-Pac(Pharmacia) with a modified polylinker L0777 Soares_NhHMPu_S1 Pooledhuman melanocyte, mixed (see pT7T3D-Pac fetal heart, and pregnant below)(Pharmacia) with a modified polylinker L0779 Soares_NFL_T_GBC_S1 pooledpT7T3D-Pac (Pharmacia) with a modified polylinker L0780Soares_NSF_F8_9W_OT_PA_P_S1 pooled pT7T3D-Pac (Pharmacia) with amodified polylinker L0782 NCI_CGAP_Pr21 normal prostate prostatepT7T3D-Pac (Pharmacia) with a modified polylinker L0783 NCI_CGAP_Pr22normal prostate prostate pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0784 NCI_CGAP_Lei2 leiomyosarcoma soft tissue pT7T3D-Pac(Pharmacia) with a modified polylinker L0785 Barstead spleen HPLRB2spleen pT7T3D-Pac (Pharmacia) with a modified polylinker L0786Soares_NbHFB whole brain pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0787 NCI_CGAP_Sub1 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0788 NCI_CGAP_Sub2 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0789 NCI_CGAP_Sub3 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0790 NCI_CGAP_Sub4 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0791 NCI_CGAP_Sub5 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0792 NCI_CGAP_Sub6 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0793 NCI_CGAP_Sub7 pT7T3D-Pac (Pharmacia) with a modifiedpolylinker L0794 NCI_CGAP_GC6 pooled germ cell tumors pT7T3D-Pac(Pharmacia) with a modified polylinker L0796 NCI_CGAP_Brn50medulloblastoma brain pT7T3D-Pac (Pharmacia) with a modified polylinkerL0800 NCI_CGAP_Co16 colon tumor, RER+ colon pT7T3D-Pac (Pharmacia) witha modified polylinker L0803 NCI_CGAP_Kid11 kidney pT7T3D-Pac (Pharmacia)with a modified polylinker L0804 NCI_CGAP_Kid12 2 pooled tumors (clearcell kidney pT7T3D-Pac type) (Pharmacia) with a modified polylinkerL0805 NCI_CGAP_Lu24 carcinoid lung pT7T3D-Pac (Pharmacia) with amodified polylinker L0806 NCI_CGAP_Lu19 squamous cell carcinoma, lungpT7T3D-Pac poorly differentiated (4 (Pharmacia) with a modifiedpolylinker L0807 NCI_CGAP_Ov18 fibrotheoma ovary pT7T3D-Pac (Pharmacia)with a modified polylinker L0809 NCI_CGAP_Pr28 prostate pT7T3D-Pac(Pharmacia) with a modified polylinker L1819 HT0268 head_neck puc18L2251 Human fetal lung Fetal lung L2257 NIH_MGC_65 adenocarcinoma colonpCMV- SPORT6 L2258 NIH_MGC_67 retinoblastoma eye pCMV- SPORT6 L2259NIH_MGC_68 large cell carcinoma lung pCMV- SPORT6 L2260 NIH_MGC_69 largecell carcinoma, lung pCMV- undifferentiated SPORT6 L2261 NIH_MGC_70epithelioid carcinoma pancreas pCMV- SPORT6 L2262 NIH_MGC_72 melanoticmelanoma skin pCMV- SPORT6 L2263 NIH_MGC_66 adenocarcinoma ovary pCMV-SPORT6 L2264 NIH_MGC_71 leiomyosarcoma uterus pCMV- SPORT6 L2265NIH_MGC_39 adenocarcinoma pancreas pOTB7 L2270Lupski_dorsal_root_ganglion dorsal root ganglia pCMV- SPORT6 (LifeTechnologies) L2289 BT0757 breast puc18 L2336 CT0428 colon puc18 L2368UT0041 uterus_tumor puc18 L2380 NN0068 nervous_normal puc18 L2381 NN0070nervous_normal puc18 L2412 NN0136 nervous_normal puc18 L2482 HT0497head_neck puc18 L2486 HT0527 head_neck puc18 L2497 HT0618 head_neckpuc18 L2504 HT0636 head_neck puc18 L2543 HT0734 head_neck puc18 L2551HT0744 head_neck puc18 L2653 NIH_MGC_58 hypernephroma kidney pDNR-LIB(Clontech) L2654 NIH_MGC_9 adenocarcinoma cell line ovary pOTB7 L2655NIH_MGC_55 from acute myelogenous bone marrow pDNR-LIB leukemia(Clontech) L2669 NT0022 nervous_tumor puc18 L2673 NT0028 nervous_tumorpuc18 L2706 NT0102 nervous_tumor puc18 L2744 FT0004 prostate_tumor puc18L2758 FT0027 prostate_tumor puc18 L2759 FT0028 prostate_tumor puc18L2767 FT0044 prostate_tumor puc18 L2877 AN0027 amnion_normal puc18 L2904BN0042 breast_normal puc18 L2910 BN0070 breast_normal puc18 L2915 BN0098breast_normal puc18 L2985 BN0257 breast_normal puc18 L2991 BN0264breast_normal puc18 L3019 BN0303 breast_normal puc18 L3280 FN0106prostate_normal puc18 L3357 TN0034 testis_normal puc18 L3372 TN0068testis_normal puc18 L3387 GKB hepatocellular carcinoma pBluescript sk(−)L3388 GKC hepatocellular carcinoma pBluescript sk(−) L3391 NIH_MGC_53carcinoma, cell line bladder pDNR-LIB (Clontech) L3499 HT0617 head_neckpuc18 L3503 HT0870 head_neck puc18 L3560 TN0023 testis_normal puc18L3585 TN0119 testis_normal puc18 L3642 ADA Adrenal gland pBluescriptsk(−) L3643 ADB Adrenal gland pBluescript sk(−) L3644 ADC Adrenal glandpBluescript sk(−) L3645 Cu adrenal cortico adenoma for pBluescriptCushing''s syndrome sk(−) L3646 DCA pTriplEx2 L3649 DCB pTriplEx2 L3651FHTA hypothalamus pTriplEx2 L3653 HTB Hypothalamus pBluescript sk(−)L3655 HTC Hypothalamus pBluescript sk(−) L3658 cdA pheochromocytomapTriplEx2 L3659 CB cord blood pBluescript L3663 NIH_MGC_60adenocarcinoma prostate pDNR-LIB (Clontech) L3811 NPC pituitarypBluescript sk(−) L3812 NPD pituitary pBluescript sk(−) L3815 MDS Bonemarrow pTriplEx2 L3816 HEMBA1 whole embryo, mainly head pME18SFL3 L3817HEMBB1 whole embryo, mainly body pME18SFL3 L3818 MAMMA1 mammary glandpME18SFL3 L3824 NT2RM2 NT2 pME18SFL3 L3825 NT2RM4 NT2 pME18SFL3 L3826NT2RP1 NT2 pUC19FL3 L3827 NT2RP2 NT2 pME18SFL3 L3828 NT2RP3 NT2pME18SFL3 L3832 PLACE1 placenta pME18SFL3 L3833 PLACE2 placentapME18SFL3 L3872 NCI_CGAP_Skn1 skin, normal, 4 pCMV- SPORT6 pooled saL3904 NCI_CGAP_Brn64 glioblastoma with EGFR brain pCMV- SPORT6amplification L3905 NCI_CGAP_Brn67 anaplastic oligodendroglioma brainpCMV- with 1p/19q loss SPORT6 L4500 NCI_CGAP_HN16 moderate to poorlymouth pAMP10 differentiated invasive carcino L4559 NCI_CGAP_Thy3follicular carcinoma thyroid pCMV- SPORT6 L4560 NCI_CGAP_Ut7 tumoruterus pCMV- SPORT6 L4747 NCI_CGAP_Brn41 oligodendroglioma brainpT7T3D-Pac (Pharmacia) with a modifie d polylinker L5565 NCI_CGAP_Brn66glioblastoma with probably brain pCMV- SPORT6 TP53 mutation and withoL5566 NCI_CGAP_Brn70 anaplastic oligodendroglioma brain pCMV-SPORT6.ccdb L5568 NCI_CGAP_HN21 nasopharyngeal carcinoma head/neck pAMP1L5569 NCI_CGAP_HN17 normal epithelium nasopharynx pAMP10 L5574NCI_CGAP_HN19 normal epithelium nasopharynx pAMP10 L5575 NCI_CGAP_Brn65glioblastoma without EGFR brain pCMV- SPORT6 amplification L5622NCI_CGAP_Skn3 skin pCMV- SPORT6 L5623 NCI_CGAP_Skn4 squamous cellcarcinoma skin pCMV- SPORT6Description of Table 5

Table 5 provides a key to the OMIM reference identification numbersdisclosed in Table 1B.1, column 9. OMIM reference identification numbers(Column 1) were derived from Online Mendelian Inheritance in Man (OnlineMendelian Inheritance in Man, OMIM. McKusick-Nathans Institute forGenetic Medicine, Johns Hopkins University (Baltimore, Md.) and NationalCenter for Biotechnology Information, National Library of Medicine,(Bethesda, Md.) 2000. World Wide Web URL:http://www.ncbi.nlm.nih.gov/omim/. Column 2 provides diseases associatedwith the cytologic band disclosed in Table 1B.1, column 8, as determinedusing the Morbid Map database. TABLE 5 OMIM Reference Description 104311Alzheimer disease-3 106180 Myocardial infarction, susceptibility to107300 Antithrombin III deficiency 108725 Atherosclerosis,susceptibility to 109150 Machado-Joseph disease 112410 Hypertension withbrachydactyly 114400 Lynch cancer family syndrome II 114835 Monocytecarboxyesterase deficiency 116806 Colorectal cancer 116860 Cavernousangiomatous malformations 118800 Choreoathetosis, familial paroxysmal120700 C3 deficiency 120950 C8 deficiency, type I 120960 C8 deficiency,type II 123000 Craniometaphyseal dysplasia 123620 Cataract, cerulean,type 2, 601547 123660 Cataract, Coppock-like 125660 Myopathy,desminopathic 125660 Cardiomyopathy 126451 Schizophrenia, susceptibilityto 126650 Chloride diarrhea, congenital, Finnish type, 214700 126650Colon cancer 129900 EEC syndrome-1 131210 Atherosclerosis,susceptibility to 132700 Cylindromatosis 133171 [Erythrocytosis,familial], 133100 133450 Neuroepithelioma 133450 Ewing sarcoma 135700Fibrosis of extraocular muscles, congenital, 1 136132 [Fish-odorsyndrome], 602079 138079 Hyperinsulinism, familial, 602485 138079 MODY,type 2, 125851 138130 Hyperinsulinism-hyperammonemia syndrome 138140Glucose transport defect, blood-brain barrier 138300 Hemolytic anemiadue to glutathione reductase deficiency 138700 [Apolipoprotein Hdeficiency] 139250 Isolated growth hormone deficiency, Illig type withabsent GH and Kowarski type with bioinactive GH 143890Hypercholesterolemia, familial 145001 Hyperparathyroidism-jaw tumorsyndrome 147670 Rabson-Mendenhall syndrome 147670 Diabetes mellitus,insulin-resistant, with acanthosis nigricans 147670 Leprechaunism 150200[Placental lactogen deficiency] 150250 Larsen syndrome, autosomaldominant 151440 Leukemia, T-cell acute lymphoblastoid 153880 Maculardystrophy, dominant cystoid 154275 Malignant hyperthermia susceptibility2 154276 Malignant hyperthermia susceptibility 3 157640 PEO withmitochondrial DNA deletions, type 1 157900 Moebius syndrome 164500Spinocerebellar ataxia-7 164953 Liposarcoma 165240 Pallister-Hallsyndrome, 146510 165240 Postaxial polydactyly type A1, 174200 165240Greig cephalopolysyndactyly syndrome, 175700 168468 Metaphysealchondrodysplasia, Murk Jansen type, 156400 168470 Humoral hypercalcemiaof malignancy 170500 Myotonia congenita, atypicalacetazolamide-responsive 170500 Paramyotonia congenita, 168300 170500Hyperkalemic periodic paralysis 172490 Phosphorylase kinase deficiencyof liver and muscle, 261750 173360 Thrombophilia due to excessiveplasminogen activator inhibitor 173360 Hemorrhagic diathesis due to PAI1deficiency 173610 Platelet alpha/delta storage pool deficiency 174900Polyposis, juvenile intestinal 176960 Pituitary tumor, invasive 178300Ptosis, hereditary congenital, 1 180104 Retinitis pigmentosa-9 180105Retinitis pigmentosa-10 180297 Anemia, hemolytic, Rh-null, suppressortype, 268150 181430 Scapuloperoneal syndrome, myopathic type 182280Small-cell cancer of lung 182600 Spastic paraplegia-3A 187040Leukemia-1, T-cell acute lymphoblastic 190900 Colorblindness, tritan192340 Diabetes insipidus, neurohypophyseal, 125700 193500Rhabdomyosarcoma, alveolar, 268220 193500 Waardenburg syndrome, type I193500 Waardenburg syndrome, type III, 148820 193500Craniofacial-deafness-hand syndrome, 122880 200990 Acrocallosal syndrome201460 Acyl-CoA dehydrogenase, long chain, deficiency of 203300Hermansky-Pudlak syndrome 203740 Alpha-ketoglutarate dehydrogenasedeficiency 205100 Amyotrophic lateral sclerosis, juvenile 212138Carnitine-acylcarnitine translocase deficiency 219800 Cystinosis,nephropathic 222800 Hemolytic anemia due to bisphosphoglycerate mutasedeficiency 231670 Glutaricaciduria, type I 232300 Glycogen storagedisease II 233700 Chronic granulomatous disease due to deficiency ofNCF-1 234200 Neurodegeneration with brain iron accumulation 236730Urofacial syndrome 237300 Carbamoylphosphate synthetase I deficiency240400 Scurvy 245200 Krabbe disease 246900 Lipoamide dehydrogenasedeficiency 248611 Maple syrup urine disease, type Ib 249000 Meckelsyndrome 249270 Thiamine-responsive megaloblastic anemia 251000Methylmalonicaciduria, mutase deficiency type 252900 Sanfilipposyndrome, type A 253250 Mulibrey nanism 257220 Niemann-Pick disease,type C 257220 Niemann-Pick disease, type D, 257250 261670 Myopathy dueto phosphoglycerate mutase deficiency 262000 Bjornstad syndrome 263200Polycystic kidney disease, autosomal recessive 277730 Wernicke-Korsakoffsyndrome, susceptibility to 600079 Colon cancer 600101 Deafness,autosomal dominant 2 600163 Long QT syndrome-3 600185 Pancreatic cancer600185 Breast cancer 2, early onset 600211 Cleidocranial dysplasia,119600 600266 Resistance/susceptibility to TB, etc. 600276 Cerebralarteriopathy with subcortical infarcts and leukoencephalopathy, 125310600512 Epilepsy, partial 600650 Myopathy due to CPT II deficiency,255110 600650 CPT deficiency, hepatic, type II, 600649 600698 Salivaryadenoma 600698 Uterine leiomyoma 600698 Lipoma 600698 Lipomatosis,mutiple, 151900 600701 Lipoma 600722 Ceroid lipofuscinosis, neuronal,variant juvenile type, with granular osmiophilic deposits 600722 Ceroidlipofuscinosis, neuronal-1, infantile, 256730 600808 Enuresis,nocturnal, 2 600850 Schizophrenia disorder-4 600882 Charcot-Marie-Toothneuropathy-2B 600957 Persistent Mullerian duct syndrome, type I, 261550600968 Gitelman syndrome, 263800 600971 Deafness, autosomal recessive 6601208 Insulin-dependent diabetes mellitus-11 601226 Progressiveexternal ophthalmoplegia, type 2 601277 Ichthyosis, lamellar, type 2601649 Blepharophimosis, epicanthus inversus, and ptosis, type 2 601652Glaucoma 1A, primary open angle, juvenile-onset, 137750 601669Hirschsprung disease, one form 601690 Platelet-activating factoracetylhydrolase deficiency 601728 Bannayan-Zonana syndrome, 153480601728 Cowden disease, 158350 601728 Endometrial carcinoma 601728Lhermitte-Duclos syndrome 601843 Hypothyroidism, congenital, 274400602116 Glioma 602136 Refsum disease, infantile, 266510 602136 Zellwegersyndrome-1, 214100 602136 Adrenoleukodystrophy, neonatal, 202370 602447Coronary artery disease, susceptibility to 602568Homocystinuria-megaloblastic anemia, cbl E type, 236270 602629Dystonia-6, torsionMature Polypeptides

The present invention also encompasses mature forms of a polypeptidehaving the amino acid sequence of SEQ ID NO:Y and/or the amino acidsequence encoded by the cDNA in a deposited clone. Polynucleotidesencoding the mature forms (such as, for example, the polynucleotidesequence in SEQ ID NO:X and/or the polynucleotide sequence contained inthe cDNA of a deposited clone) are also encompassed by the invention.Moreover, fragments or variants of these polypeptides (such as,fragments as described herein, polypeptides at least 80%, 85%, 90%, 95%,96%, 97%, 98%, 99%, or 100% identical to these polypeptides, orpolypeptides encoded by a polynucleotide that hybridizes under stringentconditions to the complementary strand the polynucleotide encoding thesepolypeptides) are also encompassed by the invention. In preferredembodiments, these fragments or variants retain one or more functionalacitivities of the full-length or mature form of the polypeptide (e.g.,biological activity (such as, for example, activity useful in detecting,preventing, diagnosing, prognosticating, treating, and/or amelioratingallergic and/or asthmatic disorders), antigenicity (ability to bind, orcompete with a polypeptide of the invention for binding, to ananti-polypeptide of the invention antibody), immunogenicity (ability togenerate antibody which binds to a specific polypeptide of theinvention), ability to form multimers with polypeptides of theinvention, and ability to bind to a receptor or ligand for a polypeptideof the invention). Antibodies that bind the polypeptides of theinvention, and polynucleotides encoding these polypeptides are alsoencompassed by the invention.

According to the signal hypothesis, proteins secreted by mammalian cellshave a signal or secretary leader sequence that is cleaved from themature protein once export of the growing protein chain across the roughendoplasmic reticulum has been initiated. Most mammalian cells and eveninsect cells cleave secreted proteins with the same specificity.However, in some cases, cleavage of a secreted protein is not entirelyuniform, which results in two or more mature species of the protein.Further, it has long been known that cleavage specificity of a secretedprotein is ultimately determined by the primary structure of thecomplete protein, that is, it is inherent in the amino acid sequence ofthe polypeptide.

Methods for predicting whether a protein has a signal sequence, as wellas the cleavage point for that sequence, are available. For instance,the method of McGeoch, Virus Res. 3:271-286 (1985), uses the informationfrom a short N-terminal charged region and a subsequent uncharged regionof the complete (uncleaved) protein. The method of von Heinje, NucleicAcids Res. 14:4683-4690 (1986) uses the information from the residuessurrounding the cleavage site, typically residues −13 to +2, where +1indicates the amino terminus of the secreted protein. The accuracy ofpredicting the cleavage points of known mammalian secretory proteins foreach of these methods is in the range of 75-80%. (von Heinje, supra.)However, the two methods do not always produce the same predictedcleavage point(s) for a given protein.

In the present case, the deduced amino acid sequence of the secretedpolypeptide was analyzed by a computer program called SignalP (HenrikNielsen et al., Protein Engineering 10:1-6 (1997)), which predicts thecellular location of a protein based on the amino acid sequence. As partof this computational prediction of localization, the methods of McGeochand von Heinje are incorporated. The analysis of the amino acidsequences of the secreted proteins described herein by this programprovided the results shown in Table 1A.

In specific embodiments, polypeptides of the invention comprise, oralternatively consist of, the predicted mature form of the polypeptideas delineated in columns 14 and 15 of Table 1A. Moreover, fragments orvariants of these polypeptides (such as, fragments as described herein,polypeptides at least 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99%, or 100%identical to these polypeptides, or polypeptides encoded by apolynucleotide that hybridizes under stringent conditions to thecomplementary strand of the polynucleotide encoding these polypeptides)are also encompassed by the invention. In preferred embodiments, thesefragments or variants retain one or more functional acitivities of thefull-length or mature form of the polypeptide (e.g., biological activity(such as, for example, activity useful in detecting, preventing,diagnosing, prognosticating, treating, and/or ameliorating allergicand/or asthmatic disorders), antigenicity (ability to bind, or competewith a polypeptide of the invention for binding, to an anti-polypeptideof the invention antibody), immunogenicity (ability to generate antibodywhich binds to a specific polypeptide of the invention), ability to formmultimers with polypeptides of the invention, and ability to bind to areceptor or ligand for a polypeptide of the invention). Antibodies thatbind the polypeptides of the invention, and polynucleotides encodingthese polypeptides are also encompassed by the invention.

Polynucleotides encoding proteins comprising, or consisting of, thepredicted mature form of polypeptides of the invention (e.g.,polynucleotides having the sequence of SEQ ID NO: X (Table 1A, column4), the sequence delineated in columns 7 and 8 of Table 1A, and asequence encoding the mature polypeptide delineated in columns 14 and 15of Table 1A (e.g., the sequence of SEQ ID NO:X encoding the maturepolypeptide delineated in columns 14 and 15 of Table 1)) are alsoencompassed by the invention, as are fragments or variants of thesepolynucleotides (such as, fragments as described herein, polynucleotidesat least 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99%, or 100% identical tothese polyncueotides, and nucleic acids which hybridizes under stringentconditions to the complementary strand of the polynucleotide).

As one of ordinary skill would appreciate, however, cleavage sitessometimes vary from organism to organism and cannot be predicted withabsolute certainty. Accordingly, the present invention provides secretedpolypeptides having a sequence shown in SEQ ID NO:Y which have anN-terminus beginning within 15 residues of the predicted cleavage point(i.e., having 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 moreor less contiguous residues of SEQ ID NO:Y at the N-terminus whencompared to the predicted mature form of the polypeptide (e.g., themature polypeptide delineated in columns 14 and 15 of Table 1).Similarly, it is also recognized that in some cases, cleavage of thesignal sequence from a secreted protein is not entirely uniform,resulting in more than one secreted species. These polypeptides, and thepolynucleotides encoding such polypeptides, are contemplated by thepresent invention.

Moreover, the signal sequence identified by the above analysis may notnecessarily predict the naturally occurring signal sequence. Forexample, the naturally occurring signal sequence may be further upstreamfrom the predicted signal sequence. However, it is likely that thepredicted signal sequence will be capable of directing the secretedprotein to the ER. Nonetheless, the present invention provides themature protein produced by expression of the polynucleotide sequence ofSEQ ID NO:X and/or the polynucleotide sequence contained in the cDNA ofa deposited clone, in a mammalian cell (e.g., COS cells, as desribedbelow). These polypeptides, and the polynucleotides encoding suchpolypeptides, are contemplated by the present invention.

Polynucleotide and Polypeptide Variants

The present invention is also directed to variants of the polynucleotidesequence disclosed in SEQ ID NO:X or the complementary strand thereto,nucleotide sequences encoding the polypeptide of SEQ ID NO:Y, thenucleotide sequence of SEQ ID NO:X that encodes the polypeptide sequenceas defined in columns 13 and 14 of Table 1A, nucleotide sequencesencoding the polypeptide sequence as defined in columns 13 and 14 ofTable 1A, the nucleotide sequence of SEQ ID NO:X encoding thepolypeptide sequence as defined in Table 1B, nucleotide sequencesencoding the polypeptide as defined in Table 1B, the nucleotide sequenceas defined in columns 8 and 9 of Table 2, nucleotide sequences encodingthe polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2, the nucleotide sequence as defined in column 6 ofTable 1C, nucleotide sequences encoding the polypeptide encoded by thenucleotide sequence as defined in column 6 of Table 1C, the cDNAsequence contained in ATCC Deposit No: Z, nucleotide sequences encodingthe polypeptide encoded by the cDNA sequence contained in ATCC DepositNo: Z, and/or nucleotide sequences encoding a mature (secreted)polypeptide encoded by the cDNA sequence contained in ATCC Deposit No:Z.

The present invention also encompasses variants of the polypeptidesequence disclosed in SEQ ID NO:Y, the polypeptide as defined in columns13 and 14 of Table 1A, the polypeptide sequence as defined in Table 1B,a polypeptide sequence encoded by the polynucleotide sequence in SEQ IDNO:X, a polypeptide sequence encoded by the nucleotide sequence asdefined in columns 8 and 9 of Table 2, a polypeptide sequence encoded bythe nucleotide sequence as defined in column 6 of Table 1C, apolypeptide sequence encoded by the complement of the polynucleotidesequence in SEQ ID NO:X, the polypeptide sequence encoded by the cDNAsequence contained in ATCC Deposit No: Z and/or a mature (secreted)polypeptide encoded by the cDNA sequence contained in ATCC Deposit No:Z.

“Variant” refers to a polynucleotide or polypeptide differing from thepolynucleotide or polypeptide of the present invention, but retainingessential properties thereof. Generally, variants are overall closelysimilar, and, in many regions, identical to the polynucleotide orpolypeptide of the present invention.

Thus, one aspect of the invention provides an isolated nucleic acidmolecule comprising, or alternatively consisting of, a polynucleotidehaving a nucleotide sequence selected from the group consisting of: (a)a nucleotide sequence described in SEQ ID NO:X or contained in the cDNAsequence of ATCC Deposit No: Z; (b) a nucleotide sequence in SEQ ID NO:Xor the cDNA in ATCC Deposit No: Z which encodes the complete amino acidsequence of SEQ ID NO:Y or the complete amino acid sequence encoded bythe cDNA in ATCC Deposit No: Z; (c) a nucleotide sequence in SEQ ID NO:Xor the cDNA in ATCC Deposit No: Z which encodes a mature polypeptide(i.e., a secreted polypeptide (e.g., as delineated in columns 14 and 15of Table 1A)); (d) a nucleotide sequence in SEQ ID NO:X or the cDNAsequence of ATCC Deposit No: Z, which encodes a biologically activefragment of a polypeptide; (e) a nucleotide sequence in SEQ ID NO:X orthe cDNA sequence of ATCC Deposit No: Z, which encodes an antigenicfragment of a polypeptide; (f) a nucleotide sequence encoding apolypeptide comprising the complete amino acid sequence of SEQ ID NO:Yor the complete amino acid sequence encoded by the cDNA in ATCC DepositNo: Z; (g) a nucleotide sequence encoding a mature polypeptide of theamino acid sequence of SEQ ID NO:Y (i.e., a secreted polypeptide (e.g.,as delineated in columns 14 and 15 of Table 1A)) or a mature polypeptideof the amino acid sequence encoded by the cDNA in ATCC Deposit No: Z;(h) a nucleotide sequence encoding a biologically active fragment of apolypeptide having the complete amino acid sequence of SEQ ID NO:Y orthe complete amino acid sequence encoded by the cDNA in ATCC Deposit No:Z; (i) a nucleotide sequence encoding an antigenic fragment of apolypeptide having the complete amino acid sequence of SEQ ID NO:Y orthe complete amino acid sequence encoded by the cDNA in ATCC Deposit No:Z; and (j) a nucleotide sequence complementary to any of the nucleotidesequences in (a), (b), (c), (d), (e), (f), (g), (h), or (i) above.

The present invention is also directed to nucleic acid molecules whichcomprise, or alternatively consist of, a nucleotide sequence which is atleast 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100%, identical to, forexample, any of the nucleotide sequences in (a), (b), (c), (d), (e),(f), (g), (h), (i), or (j) above, the nucleotide coding sequence in SEQID NO:X or the complementary strand thereto, the nucleotide codingsequence of the cDNA contained in ATCC Deposit No: Z or thecomplementary strand thereto, a nucleotide sequence encoding thepolypeptide of SEQ ID NO:Y, a nucleotide sequence encoding a polypeptidesequence encoded by the nucleotide sequence in SEQ ID NO:X, apolypeptide sequence encoded by the complement of the polynucleotidesequence in SEQ ID NO:X, a nucleotide sequence encoding the polypeptideencoded by the cDNA contained in ATCC Deposit No: Z, the nucleotidecoding sequence in SEQ ID NO:X as defined in columns 8 and 9 of Table 2or the complementary strand thereto, a nucleotide sequence encoding thepolypeptide encoded by the nucleotide sequence in SEQ ID NO:X as definedin columns 8 and 9 of Table 2 or the complementary strand thereto, thenucleotide coding sequence in SEQ ID NO:B as defined in column 6 ofTable 1C or the complementary strand thereto, a nucleotide sequenceencoding the polypeptide encoded by the nucleotide sequence in SEQ IDNO:B as defined in column 6 of Table 1C or the complementary strandthereto, the nucleotide sequence in SEQ ID NO:X encoding the polypeptidesequence as defined in Table 1B or the complementary strand thereto,nucleotide sequences encoding the polypeptide as defined in Table 1B orthe complementary strand thereto, and/or polynucleotide fragments of anyof these nucleic acid molecules (e.g., those fragments describedherein). Polynucleotides that hybridize to the complement of thesenucleic acid molecules under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention, as are polypeptides encoded by these polynucleotidesand nucleic acids.

In a preferred embodiment, the invention encompasses nucleic acidmolecules which comprise, or alternatively, consist of a polynucleotidewhich hybridizes under stringent hybridization conditions, oralternatively, under lower stringency conditions, to a polynucleotide in(a), (b), (c), (d), (e), (f), (g), (h), or (i), above, as arepolypeptides encoded by these polynucleotides. In another preferredembodiment, polynucleotides which hybridize to the complement of thesenucleic acid molecules under stringent hybridization conditions, oralternatively, under lower stringency conditions, are also encompassedby the invention, as are polypeptides encoded by these polynucleotides.

In another embodiment, the invention provides a purified proteincomprising, or alternatively consisting of, a polypeptide having anamino acid sequence selected from the group consisting of: (a) thecomplete amino acid sequence of SEQ ID NO:Y or the complete amino acidsequence encoded by the cDNA in ATCC Deposit No: Z; (b) the amino acidsequence of a mature (secreted) form of a polypeptide having the aminoacid sequence of SEQ ID NO:Y (e.g., as delineated in columns 14 and 15of Table 1A) or a mature form of the amino acid sequence encoded by thecDNA in ATCC Deposit No: Z mature; (c) the amino acid sequence of abiologically active fragment of a polypeptide having the complete aminoacid sequence of SEQ ID NO:Y or the complete amino acid sequence encodedby the cDNA in ATCC Deposit No: Z; and (d) the amino acid sequence of anantigenic fragment of a polypeptide having the complete amino acidsequence of SEQ ID NO:Y or the complete amino acid sequence encoded bythe cDNA in ATCC Deposit No: Z.

The present invention is also directed to proteins which comprise, oralternatively consist of, an amino acid sequence which is at least 80%,85%, 90%, 95%, 96%, 97%, 98%, 99% or 100%, identical to, for example,any of the amino acid sequences in (a), (b), (c), or (d), above, theamino acid sequence shown in SEQ ID NO:Y, the amino acid sequenceencoded by the cDNA contained in ATCC Deposit No: Z, the amino acidsequence of the polypeptide encoded by the nucleotide sequence in SEQ IDNO:X as defined in columns 8 and 9 of Table 2, the amino acid sequenceof the polypeptide encoded by the nucleotide sequence in SEQ ID NO:B asdefined in column 6 of Table 1C, the amino acid sequence as defined inTable 1B, an amino acid sequence encoded by the nucleotide sequence inSEQ ID NO:X, and an amino acid sequence encoded by the complement of thepolynucleotide sequence in SEQ ID NO:X. Fragments of these polypeptidesare also provided (e.g., those fragments described herein). Furtherproteins encoded by polynucleotides that hybridize to the complement ofthe nucleic acid molecules encoding these amino acid sequences understringent hybridization conditions or alternatively, under lowerstringency conditions, are also encompassed by the invention, as are thepolynucleotides encoding these proteins.

By a nucleic acid having a nucleotide sequence at least, for example,95% “identical” to a reference nucleotide sequence of the presentinvention, it is intended that the nucleotide sequence of the nucleicacid is identical to the reference sequence except that the nucleotidesequence may include up to five point mutations per each 100 nucleotidesof the reference nucleotide sequence encoding the polypeptide. In otherwords, to obtain a nucleic acid having a nucleotide sequence at least95% identical to a reference nucleotide sequence, up to 5% of thenucleotides in the reference sequence may be deleted or substituted withanother nucleotide, or a number of nucleotides up to 5% of the totalnucleotides in the reference sequence may be inserted into the referencesequence. The query sequence may be an entire sequence referred to inTable 1B or 2 as the ORF (open reading frame), or any fragment specifiedas described herein.

As a practical matter, whether any particular nucleic acid molecule orpolypeptide is at least 80%, 85%, 90%, 95%, 96%, 97%, 98% or 99%identical to a nucleotide sequence of the present invention can bedetermined conventionally using known computer programs. A preferredmethod for determining the best overall match between a query sequence(a sequence of the present invention) and a subject sequence, alsoreferred to as a global sequence alignment, can be determined using theFASTDB computer program based on the algorithm of Brutlag et al. (Comp.App. Biosci. 6:237-245 (1990)). In a sequence alignment the query andsubject sequences are both DNA sequences. An RNA sequence can becompared by converting U's to T's. The result of said global sequencealignment is expressed as percent identity. Preferred parameters used ina FASTDB alignment of DNA sequences to calculate percent identity are:Matrix=Unitary, k-tuple=4, Mismatch Penalty=1, Joining Penalty=30,Randomization Group Length=0, Cutoff Score=1, Gap Penalty=5, Gap SizePenalty 0.05, Window Size=500 or the length of the subject nucleotidesequence, whichever is shorter.

If the subject sequence is shorter than the query sequence because of 5′or 3′ deletions, not because of internal deletions, a manual correctionmust be made to the results. This is because the FASTDB program does notaccount for 5′ and 3′ truncations of the subject sequence whencalculating percent identity. For subject sequences truncated at the 5′or 3′ ends, relative to the query sequence, the percent identity iscorrected by calculating the number of bases of the query sequence thatare 5′ and 3′ of the subject sequence, which are not matched/aligned, asa percent of the total bases of the query sequence. Whether a nucleotideis matched/aligned is determined by results of the FASTDB sequencealignment. This percentage is then subtracted from the percent identity,calculated by the above FASTDB program using the specified parameters,to arrive at a final percent identity score. This corrected score iswhat is used for the purposes of the present invention. Only basesoutside the 5′ and 3′ bases of the subject sequence, as displayed by theFASTDB alignment, which are not matched/aligned with the query sequence,are calculated for the purposes of manually adjusting the percentidentity score.

For example, a 90 base subject sequence is aligned to a 100 base querysequence to determine percent identity. The deletions occur at the 5′end of the subject sequence and therefore, the FASTDB alignment does notshow a matched/alignment of the first 10 bases at 5′ end. The 10unpaired bases represent 10% of the sequence (number of bases at the 5′and 3′ ends not matched/total number of bases in the query sequence) so10% is subtracted from the percent identity score calculated by theFASTDB program. If the remaining 90 bases were perfectly matched thefinal percent identity would be 90%. In another example, a 90 basesubject sequence is compared with a 100 base query sequence. This timethe deletions are internal deletions so that there are no bases on the5′ or 3′ of the subject sequence that are not matched/aligned with thequery. In this case the percent identity calculated by FASTDB is notmanually corrected. Once again, only bases 5′ and 3′ of the subjectsequence which are not matched/aligned with the query sequence aremanually corrected for. No other manual corrections are to be made forthe purposes of the present invention.

By a polypeptide having an amino acid sequence at least, for example,95% “identical” to a query amino acid sequence of the present invention,it is intended that the amino acid sequence of the subject polypeptideis identical to the query sequence except that the subject polypeptidesequence may include up to five amino acid alterations per each 100amino acids of the query amino acid sequence. In other words, to obtaina polypeptide having an amino acid sequence at least 95% identical to aquery amino acid sequence, up to 5% of the amino acid residues in thesubject sequence may be inserted, deleted, (indels) or substituted withanother amino acid. These alterations of the reference sequence mayoccur at the amino or carboxy terminal positions of the reference aminoacid sequence or anywhere between those terminal positions, interspersedeither individually among residues in the reference sequence or in oneor more contiguous groups within the reference sequence.

As a practical matter, whether any particular polypeptide is at least80%, 85%, 90%, 95%, 96%, 97%, 98% or 99% identical to, for instance, theamino acid sequence of a polypeptide referred to in Table 1A (e.g., theamino acid sequence delineated in columns 14 and 15) or a fragmentthereof, Table 1B.1 (e.g., the amino acid sequence identified in column6) or a fragment thereof, Table 2 (e.g., the amino acid sequence of thepolypeptide encoded by the polynucleotide sequence defined in columns 8and 9 of Table 2) or a fragment thereof, the amino acid sequence of thepolypeptide encoded by the polynucleotide sequence in SEQ ID NO:B asdefined in column 6 of Table 1C or a fragment thereof, the amino acidsequence of the polypeptide encoded by the nucleotide sequence in SEQ IDNO:X or a fragment thereof, or the amino acid sequence of thepolypeptide encoded by cDNA contained in ATCC Deposit No: Z, or afragment thereof, the amino acid sequence of a mature (secreted)polypeptide encoded by cDNA contained in ATCC Deposit No: Z, or afragment thereof, can be determined conventionally using known computerprograms. A preferred method for determining the best overall matchbetween a query sequence (a sequence of the present invention) and asubject sequence, also referred to as a global sequence alignment, canbe determined using the FASTDB computer program based on the algorithmof Brutlag et al. (Comp. App. Biosci. 6:237-245 (1990)). In a sequencealignment the query and subject sequences are either both nucleotidesequences or both amino acid sequences. The result of said globalsequence alignment is expressed as percent identity. Preferredparameters used in a FASTDB amino acid alignment are: Matrix=PAM 0,k-tuple=2, Mismatch Penalty=1, Joining Penalty=20, Randomization GroupLength=0, Cutoff Score=1, Window Size=sequence length, Gap Penalty=5,Gap Size Penalty=0.05, Window Size=500 or the length of the subjectamino acid sequence, whichever is shorter.

If the subject sequence is shorter than the query sequence due to N- orC-terminal deletions, not because of internal deletions, a manualcorrection must be made to the results. This is because the FASTDBprogram does not account for N- and C-terminal truncations of thesubject sequence when calculating global percent identity. For subjectsequences truncated at the N- and C-termini, relative to the querysequence, the percent identity is corrected by calculating the number ofresidues of the query sequence that are N- and C-terminal of the subjectsequence, which are not matched/aligned with a corresponding subjectresidue, as a percent of the total bases of the query sequence. Whethera residue is matched/aligned is determined by results of the FASTDBsequence alignment. This percentage is then subtracted from the percentidentity, calculated by the above FASTDB program using the specifiedparameters, to arrive at a final percent identity score. This finalpercent identity score is what is used for the purposes of the presentinvention. Only residues to the N- and C-termini of the subjectsequence, which are not matched/aligned with the query sequence, areconsidered for the purposes of manually adjusting the percent identityscore. That is, only query residue positions outside the farthest N- andC-terminal residues of the subject sequence.

For example, a 90 amino acid residue subject sequence is aligned with a100 residue query sequence to determine percent identity. The deletionoccurs at the N-terminus of the subject sequence and therefore, theFASTDB alignment does not show a matching/alignment of the first 10residues at the N-terminus. The 10 unpaired residues represent 10% ofthe sequence (number of residues at the N- and C-termini notmatched/total number of residues in the query sequence) so 10% issubtracted from the percent identity score calculated by the FASTDBprogram. If the remaining 90 residues were perfectly matched the finalpercent identity would be 90%. In another example, a 90 residue subjectsequence is compared with a 100 residue query sequence. This time thedeletions are internal deletions so there are no residues at the N- orC-termini of the subject sequence that are not matched/aligned with thequery. In this case the percent identity calculated by FASTDB is notmanually corrected. Once again, only residue positions outside the N-and C-terminal ends of the subject sequence, as displayed in the FASTDBalignment, which are not matched/aligned with the query sequnce aremanually corrected for. No other manual corrections are to be made forthe purposes of the present invention.

The polynucleotide variants of the invention may contain alterations inthe coding regions, non-coding regions, or both. Especially preferredare polynucleotide variants containing alterations that produce silentsubstitutions, additions, or deletions, but do not alter the propertiesor activities of the encoded polypeptide. Nucleotide variants producedby silent substitutions due to the degeneracy of the genetic code arepreferred. Moreover, polypeptide variants in which less than 50, lessthan 40, less than 30, less than 20, less than 10, or 5-50, 5-25, 5-10,1-5, or 1-2 amino acids are substituted, deleted, or added in anycombination are also preferred. Polynucleotide variants can be producedfor a variety of reasons, e.g., to optimize codon expression for aparticular host (change codons in the human mRNA to those preferred by abacterial host such as E. coli).

Naturally occurring variants are called “allelic variants,” and refer toone of several alternate forms of a gene occupying a given locus on achromosome of an organism. (Genes II, Lewin, B., ed., John Wiley & Sons,New York (1985)). These allelic variants can vary at either thepolynucleotide and/or polypeptide level and are included in the presentinvention. Alternatively, non-naturally occurring variants may beproduced by mutagenesis techniques or by direct synthesis.

Using known methods of protein engineering and recombinant DNAtechnology, variants may be generated to improve or alter thecharacteristics of the polypeptides of the present invention. Forinstance, one or more amino acids can be deleted from the N-terminus orC-terminus of the polypeptide of the present invention withoutsubstantial loss of biological function. As an example, Ron et al. (J.Biol. Chem. 268: 2984-2988 (1993)) reported variant KGF proteins havingheparin binding activity even after deleting 3, 8, or 27 amino-terminalamino acid residues. Similarly, Interferon gamma exhibited up to tentimes higher activity after deleting 8-10 amino acid residues from thecarboxy terminus of this protein. (Dobeli et al., J. Biotechnology7:199-216 (1988).)

Moreover, ample evidence demonstrates that variants often retain abiological activity similar to that of the naturally occurring protein.For example, Gayle and coworkers (J. Biol. Chem. 268:22105-22111 (1993))conducted extensive mutational analysis of human cytokine IL-1a. Theyused random mutagenesis to generate over 3,500 individual IL-1a mutantsthat averaged 2.5 amino acid changes per variant over the entire lengthof the molecule. Multiple mutations were examined at every possibleamino acid position. The investigators found that “[m]ost of themolecule could be altered with little effect on either [binding orbiological activity].” In fact, only 23 unique amino acid sequences, outof more than 3,500 nucleotide sequences examined, produced a proteinthat significantly differed in activity from wild-type.

Furthermore, even if deleting one or more amino acids from theN-terminus or C-terminus of a polypeptide results in modification orloss of one or more biological functions, other biological activitiesmay still be retained. For example, the ability of a deletion variant toinduce and/or to bind antibodies which recognize the secreted form willlikely be retained when less than the majority of the residues of thesecreted form are removed from the N-terminus or C-terminus. Whether aparticular polypeptide lacking N- or C-terminal residues of a proteinretains such immunogenic activities can readily be determined by routinemethods described herein and otherwise known in the art.

Thus, the invention further includes polypeptide variants that show abiological or functional activity of the polypeptides of the invention(such as, for example, activity useful in detecting, preventing,diagnosing, prognosticating, treating, and/or ameliorating allergicand/or asthmatic disorders). Such variants include deletions,insertions, inversions, repeats, and substitutions selected according togeneral rules known in the art so as have little effect on activity.

The present application is directed to nucleic acid molecules at least80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100% identical to the nucleicacid sequences disclosed herein, (e.g., encoding a polypeptide havingthe amino acid sequence of an N and/or C terminal deletion),irrespective of whether they encode a polypeptide having functionalactivity. This is because even where a particular nucleic acid moleculedoes not encode a polypeptide having functional activity, one of skillin the art would still know how to use the nucleic acid molecule, forinstance, as a hybridization probe or a polymerase chain reaction (PCR)primer. Uses of the nucleic acid molecules of the present invention thatdo not encode a polypeptide having functional activity include, interalia, (1) isolating a gene or allelic or splice variants thereof in acDNA library; (2) in situ hybridization (e.g., “FISH”) to metaphasechromosomal spreads to provide precise chromosomal location of the gene,as described in Verma et al., Human Chromosomes: A Manual of BasicTechniques, Pergamon Press, New York (1988); (3) Northern Blot analysisfor detecting mRNA expression in specific tissues (e.g., normal ordiseased tissues); and (4) in situ hybridization (e.g., histochemistry)for detecting mRNA expression in specific tissues (e.g., normal ordiseased tissues).

Preferred, however, are nucleic acid molecules having sequences at least80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100% identical to the nucleicacid sequences disclosed herein, which do, in fact, encode a polypeptidehaving functional activity. By a polypeptide having “functionalactivity” is meant, a polypeptide capable of displaying one or moreknown functional activities associated with a full-length (complete)protein and/or a mature (secreted) protein of the invention. Suchfunctional activities include, but are not limited to, biologicalactivity (such as, for example, activity useful in detecting,preventing, diagnosing, prognosticating, treating, and/or amelioratingallergic and/or asthmatic diseases and disorders), antigenicity (abilityto bind, or compete with a polypeptide of the invention for binding, toan anti-polypeptide of the invention antibody), immunogenicity (abilityto generate antibody which binds to a specific polypeptide of theinvention), ability to form multimers with polypeptides of theinvention, and ability to bind to a receptor or ligand for a polypeptideof the invention.

The functional activity of the polypeptides, and fragments, variants andderivatives of the invention, can be assayed by various methods.

For example, in one embodiment where one is assaying for the ability tobind or compete with a full-length polypeptide of the present inventionfor binding to an anti-polypetide antibody, various immunoassays knownin the art can be used, including but not limited to, competitive andnon-competitive assay systems using techniques such asradioimmunoassays, ELISA (enzyme linked immunosorbent assay), “sandwich”immunoassays, immunoradiometric assays, gel diffusion precipitationreactions, immunodiffusion assays, in situ immunoassays (using colloidalgold, enzyme or radioisotope labels, for example), western blots,precipitation reactions, agglutination assays (e.g., gel agglutinationassays, hemagglutination assays), complement fixation assays,immunofluorescence assays, protein A assays, and immunoelectrophoresisassays, etc. In one embodiment, antibody binding is detected bydetecting a label on the primary antibody. In another embodiment, theprimary antibody is detected by detecting binding of a secondaryantibody or reagent to the primary antibody. In a further embodiment,the secondary antibody is labeled. Many means are known in the art fordetecting binding in an immunoassay and are within the scope of thepresent invention.

In another embodiment, where a ligand is identified, or the ability of apolypeptide fragment, variant or derivative of the invention tomultimerize is being evaluated, binding can be assayed, e.g., by meanswell-known in the art, such as, for example, reducing and non-reducinggel chromatography, protein affinity chromatography, and affinityblotting. See generally, Phizicky et al., Microbiol. Rev. 59:94-123(1995). In another embodiment, the ability of physiological correlatesof a polypeptide of the present invention to bind to a substrate(s) ofthe polypeptide of the invention can be routinely assayed usingtechniques known in the art.

In addition, assays described herein (see Examples) and otherwise knownin the art may routinely be applied to measure the ability ofpolypeptides of the present invention and fragments, variants andderivatives thereof to elicit polypeptide related biological activity(either in vitro or in vivo). Other methods will be known to the skilledartisan and are within the scope of the invention.

Of course, due to the degeneracy of the genetic code, one of ordinaryskill in the art will immediately recognize that a large number of thenucleic acid molecules having a sequence at least 80%, 85%, 90%, 95%,96%, 97%, 98%, 99%, or 100% identical to, for example, the nucleic acidsequence of the cDNA contained in ATCC Deposit No: Z, the nucleic acidsequence referred to in Table 1B (SEQ ID NO:X), the nucleic acidsequence disclosed in Table 1A (e.g., the nucleic acid sequencedelineated in columns 7 and 8), the nucleic acid sequence disclosed inTable 2 (e.g., the nucleic acid sequence delineated in columns 8 and 9)or fragments thereof, will encode polypeptides “having functionalactivity.” In fact, since degenerate variants of any of these nucleotidesequences all encode the same polypeptide, in many instances, this willbe clear to the skilled artisan even without performing the abovedescribed comparison assay. It will be further recognized in the artthat, for such nucleic acid molecules that are not degenerate variants,a reasonable number will also encode a polypeptide having functionalactivity. This is because the skilled artisan is fully aware of aminoacid substitutions that are either less likely or not likely tosignificantly effect protein function (e.g., replacing one aliphaticamino acid with a second aliphatic amino acid), as further describedbelow.

For example, guidance concerning how to make phenotypically silent aminoacid substitutions is provided in Bowie et al., “Deciphering the Messagein Protein Sequences: Tolerance to Amino Acid Substitutions,” Science247:1306-1310 (1990), wherein the authors indicate that there are twomain strategies for studying the tolerance of an amino acid sequence tochange.

The first strategy exploits the tolerance of amino acid substitutions bynatural selection during the process of evolution. By comparing aminoacid sequences in different species, conserved amino acids can beidentified. These conserved amino acids are likely important for proteinfunction. In contrast, the amino acid positions where substitutions havebeen tolerated by natural selection indicates that these positions arenot critical for protein function. Thus, positions tolerating amino acidsubstitution could be modified while still maintaining biologicalactivity of the protein.

The second strategy uses genetic engineering to introduce amino acidchanges at specific positions of a cloned gene to identify regionscritical for protein function. For example, site directed mutagenesis oralanine-scanning mutagenesis (introduction of single alanine mutationsat every residue in the molecule) can be used. See Cunningham and Wells,Science 244:1081-1085 (1989). The resulting mutant molecules can then betested for biological activity.

As the authors state, these two strategies have revealed that proteinsare surprisingly tolerant of amino acid substitutions. The authorsfurther indicate which amino acid changes are likely to be permissive atcertain amino acid positions in the protein. For example, most buried(within the tertiary structure of the protein) amino acid residuesrequire nonpolar side chains, whereas few features of surface sidechains are generally conserved. Moreover, tolerated conservative aminoacid substitutions involve replacement of the aliphatic or hydrophobicamino acids Ala, Val, Leu and Ile; replacement of the hydroxyl residuesSer and Thr; replacement of the acidic residues Asp and Glu; replacementof the amide residues Asn and Gln, replacement of the basic residuesLys, Arg, and His; replacement of the aromatic residues Phe, Tyr, andTrp, and replacement of the small-sized amino acids Ala, Ser, Thr, Met,and Gly.

Besides conservative amino acid substitution, variants of the presentinvention include (i) substitutions with one or more of thenon-conserved amino acid residues, where the substituted amino acidresidues may or may not be one encoded by the genetic code, or (ii)substitutions with one or more of the amino acid residues having asubstituent group, or (iii) fusion of the mature polypeptide withanother compound, such as a compound to increase the stability and/orsolubility of the polypeptide (for example, polyethylene glycol), (iv)fusion of the polypeptide with additional amino acids, such as, forexample, an IgG Fc fusion region peptide, serum albumin (preferablyhuman serum albumin) or a fragment thereof, or leader or secretorysequence, or a sequence facilitating purification, or (v) fusion of thepolypeptide with another compound, such as albumin (including but notlimited to recombinant albumin (see, e.g., U.S. Pat. No. 5,876,969,issued Mar. 2, 1999, EP Patent 0 413 622, and U.S. Pat. No. 5,766,883,issued Jun. 16, 1998, herein incorporated by reference in theirentirety)). Such variant polypeptides are deemed to be within the scopeof those skilled in the art from the teachings herein.

For example, polypeptide variants containing amino acid substitutions ofcharged amino acids with other charged or neutral amino acids mayproduce proteins with improved characteristics, such as lessaggregation. Aggregation of pharmaceutical formulations both reducesactivity and increases clearance due to the aggregate's immunogenicactivity. See Pinckard et al., Clin. Exp. Immunol. 2:331-340 (1967);Robbins et al., Diabetes 36: 838-845 (1987); Cleland et al., Crit. Rev.Therapeutic Drug Carrier Systems 10:307-377 (1993).

A further embodiment of the invention relates to polypeptides whichcomprise the amino acid sequence of a polypeptide having an amino acidsequence which contains at least one amino acid substitution, but notmore than 50 amino acid substitutions, even more preferably, not morethan 40 amino acid substitutions, still more preferably, not more than30 amino acid substitutions, and still even more preferably, not morethan 20 amino acid substitutions from a polypeptide sequence disclosedherein. Of course it is highly preferable for a polypeptide to have anamino acid sequence which, for example, comprises the amino acidsequence of a polypeptide of SEQ ID NO:Y, the amino acid sequence of themature (e.g., secreted) polypeptide of SEQ ID NO:Y, an amino acidsequence encoded by SEQ ID NO:X, an amino acid sequence encoded by theportion of SEQ ID NO:X as defined in columnns 8 and 9 of Table 2, anamino acid sequence encoded by the complement of SEQ ID NO:X, an aminoacid sequence encoded by cDNA contained in ATCC Deposit No: Z, and/orthe amino acid sequence of a mature (secreted) polypeptide encoded bycDNA contained in ATCC Deposit No: Z, or a fragment thereof, whichcontains, in order of ever-increasing preference, at least one, but notmore than 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 amino acid substitutions.

In specific embodiments, the polypeptides of the invention comprise, oralternatively, consist of, fragments or variants of a reference aminoacid sequence selected from: (a) the amino acid sequence of SEQ ID NO:Yor fragments thereof (e.g., the mature form and/or other fragmentsdescribed herein); (b) the amino acid sequence encoded by SEQ ID NO:X orfragments thereof; (c) the amino acid sequence encoded by the complementof SEQ ID NO:X or fragments thereof; (d) the amino acid sequence encodedby the portion of SEQ ID NO:X as defined in columns 8 and 9 of Table 2or fragments thereof; and (e) the amino acid sequence encoded by cDNAcontained in ATCC Deposit No: Z or fragments thereof; wherein thefragments or variants have 1-5, 5-10, 5-25, 5-50, 10-50 or 50-150, aminoacid residue additions, substitutions, and/or deletions when compared tothe reference amino acid sequence. In preferred embodiments, the aminoacid substitutions are conservative. Polynucleotides encoding thesepolypeptides are also encompassed by the invention.

Polynucleotide and Polypeptide Fragments

The present invention is also directed to polynucleotide fragments ofthe polynucleotides (nucleic acids) of the invention. In the presentinvention, a “polynucleotide fragment” refers to a polynucleotide havinga nucleic acid sequence which, for example: is a portion of the cDNAcontained in ATCC Deposit No: Z or the complementary strand thereto; isa portion of the polynucleotide sequence encoding the polypeptideencoded by the cDNA contained in ATCC Deposit No: Z or the complementarystrand thereto; is a portion of the polynucleotide sequence encoding themature (secreted) polypeptide encoded by the cDNA contained in ATCCDeposit No: Z or the complementary strand thereto; is a portion of apolynucleotide sequence encoding the mature amino acid sequence asdefined in columns 14 and 15 of Table 1A or the complementary strandthereto; is a portion of a polynucleotide sequence encoding the aminoacid sequence encoded by the region of SEQ ID NO:X as defined in columns8 and 9 of Table 2 or the complementary strand thereto; is a portion ofthe polynucleotide sequence of SEQ ID NO:X as defined in columns 8 and 9of Table 2 or the complementary strand thereto; is a portion of thepolynucleotide sequence in SEQ ID NO:X or the complementary strandthereto; is a polynucleotide sequence encoding a portion of thepolypeptide of SEQ ID NO:Y; is a polynucleotide sequence encoding aportion of a polypeptide encoded by SEQ ID NO:X; is a polynucleotidesequence encoding a portion of a polypeptide encoded by the complementof the polynucleotide sequence in SEQ ID NO:X; is a portion of apolynucleotide sequence encoding the amino acid sequence encoded by theregion of SEQ ID NO:B as defined in column 6 of Table 1C or thecomplementary strand thereto; or is a portion of the polynucleotidesequence of SEQ ID NO:B as defined in column 6 of Table 1C or thecomplementary strand thereto.

The polynucleotide fragments of the invention are preferably at leastabout 15 nt, and more preferably at least about 20 nt, still morepreferably at least about 30 nt, and even more preferably, at leastabout 40 nt, at least about 50 nt, at least about 75 nt, or at leastabout 150 nt in length. A fragment “at least 20 nt in length,” forexample, is intended to include 20 or more contiguous bases from thecDNA sequence contained in ATCC Deposit No: Z, or the nucleotidesequence shown in SEQ ID NO:X or the complementary stand thereto. Inthis context “about” includes the particularly recited value or a valuelarger or smaller by several (5, 4, 3, 2, or 1) nucleotides, at eitherterminus or at both termini. These nucleotide fragments have uses thatinclude, but are not limited to, as diagnostic probes and primers asdiscussed herein. Of course, larger fragments (e.g., at least 160, 170,180, 190, 200, 250, 500, 600, 1000, or 2000 nucleotides in length) arealso encompassed by the invention.

Moreover, representative examples of polynucleotide fragments of theinvention comprise, or alternatively consist of, a sequence from aboutnucleotide number 1-50, 51-100, 101-150, 151-200, 201-250, 251-300,301-350, 351-400, 401-450, 451-500, 501-550, 551-600, 601-650, 651-700,701-750, 751-800, 801-850, 851-900, 901-950, 951-1000, 1001-1050,1051-1100, 1101-1150, 1151-1200, 1201-1250, 1251-1300, 1301-1350,1351-1400, 1401-1450, 1451-1500, 1501-1550, 1551-1600, 1601-1650,1651-1700, 1701-1750, 1751-1800, 1801-1850, 1851-1900, 1901-1950,1951-2000, 2001-2050, 2051-2100, 2101-2150, 2151-2200, 2201-2250,2251-2300, 2301-2350, 2351-2400, 2401-2450, 2451-2500, 2501-2550,2551-2600, 2601-2650, 2651-2700, 2701-2750, 2751-2800, 2801-2850,2851-2900, 2901-2950, 2951-3000, 3001-3050, 3051-3100, 3101-3150,3151-3200, 3201-3250, 3251-3300, 3301-3350, 3351-3400, 3401-3450,3451-3500, 3501-3550, 3551-3600, 3601-3650, 3651-3700, 3701-3750,3751-3800, 3801-3850, 3851-3900, 3901-3950, 3951-4000, 4001-4050,4051-4100, 4101-4150, 4151-4200, 4201-4250, 4251-4300, 4301-4350,4351-4400, 4401-4450, 4451-4500, 4501-4550, 4551-4600, 4601-4650,4651-4700, 4701-4750, 4751-4800, 4801-4850, 4851-4900, 4901-4950,4951-5000, 5001-5050, 5051-5100, 5101-5150, 5151-5200, 5201-5250,5251-5300, 5301-5350, 5351-5400, 5401-5450, 5451-5500, 5501-5550,5551-5600, 5601-5650, 5651-5700, 5701-5750, 5751-5800, 5801-5850,5851-5900, 5901-5950, 5951-6000, 6001-6050, 6051-6100, 6101-6150,6151-6200, 6201-6250, 6251-6300, 6301-6350, 6351-6400, 6401-6450,6451-6500, 6501-6550, 6551-6600, 6601-6650, 6651-6700, 6701-6750,6751-6800, 6801-6850, 6851-6900, 6901-6950, 6951-7000, 7001-7050,7051-7100, 7101-7150, 7151-7200, 7201-7250, 7251-7300 or 7301 to the endof SEQ ID NO:X, or the complementary strand thereto. In this context“about” includes the particularly recited range or a range larger orsmaller by several (5, 4, 3, 2, or 1) nucleotides, at either terminus orat both termini. Preferably, these fragments encode a polypeptide thathas a functional activity (e.g., biological activity; such as, forexample, activity useful in detecting, preventing, diagnosing,prognosticating, treating, and/or ameliorating allergic and/or asthmaticdiseases and disorders). More preferably, these polynucleotides can beused as probes or primers as discussed herein. Polynucleotides whichhybridize to one or more of these polynucleotides under stringenthybridization conditions or alternatively, under lower stringencyconditions are also encompassed by the invention, as are polypeptidesencoded by these polynucleotides.

Further representative examples of polynucleotide fragments of theinvention comprise, or alternatively consist of, a sequence from aboutnucleotide number 1-50, 51-100, 101-150, 151-200, 201-250, 251-300,301-350, 351-400, 401-450, 451-500, 501-550, 551-600, 601-650, 651-700,701-750, 751-800, 801-850, 851-900, 901-950, 951-1000, 1001-1050,1051-1100, 1101-1150, 1151-1200, 1201-1250, 1251-1300, 1301-1350,1351-1400, 1401-1450, 1451-1500, 1501-1550, 1551-1600, 1601-1650,1651-1700, 1701-1750, 1751-1800, 1801-1850, 1851-1900, 1901-1950,1951-2000, 2001-2050, 2051-2100, 2101-2150, 2151-2200, 2201-2250,2251-2300, 2301-2350, 2351-2400, 2401-2450, 2451-2500, 2501-2550,2551-2600, 2601-2650, 2651-2700, 2701-2750, 2751-2800, 2801-2850,2851-2900, 2901-2950, 2951-3000, 3001-3050, 3051-3100, 3101-3150,3151-3200, 3201-3250, 3251-3300, 3301-3350, 3351-3400, 3401-3450,3451-3500, 3501-3550, 3551-3600, 3601-3650, 3651-3700, 3701-3750,3751-3800, 3801-3850, 3851-3900, 3901-3950, 3951-4000, 4001-4050,4051-4100, 4101-4150, 4151-4200, 4201-4250, 4251-4300, 4301-4350,4351-4400, 4401-4450, 4451-4500, 4501-4550, 4551-4600, 4601-4650,4651-4700, 4701-4750, 4751-4800, 4801-4850, 4851-4900, 4901-4950,4951-5000, 5001-5050, 5051-5100, 5101-5150, 5151-5200, 5201-5250,5251-5300, 5301-5350, 5351-5400, 5401-5450, 5451-5500, 5501-5550,5551-5600, 5601-5650, 5651-5700, 5701-5750, 5751-5800, 5801-5850,5851-5900, 5901-5950, 5951-6000, 6001-6050, 6051-6100, 6101-6150,6151-6200, 6201-6250, 6251-6300, 6301-6350, 6351-6400, 6401-6450,6451-6500, 6501-6550, 6551-6600, 6601-6650, 6651-6700, 6701-6750,6751-6800, 6801-6850, 6851-6900, 6901-6950, 6951-7000, 7001-7050,7051-7100, 7101-7150, 7151-7200, 7201-7250, 7251-7300 or 7301 to the endof the cDNA sequence contained in ATCC Deposit No: Z, or thecomplementary strand thereto. In this context “about” includes theparticularly recited range or a range larger or smaller by several (5,4, 3, 2, or 1) nucleotides, at either terminus or at both termini.Preferably, these fragments encode a polypeptide that has a functionalactivity (e.g., biological activity). More preferably, thesepolynucleotides can be used as probes or primers as discussed herein.Polynucleotides which hybridize to one or more of these polynucleotidesunder stringent hybridization conditions or alternatively, under lowerstringency conditions are also encompassed by the invention, as arepolypeptides encoded by these polynucleotides.

Moreover, representative examples of polynucleotide fragments of theinvention comprise, or alternatively consist of, a nucleic acid sequencecomprising one, two, three, four, five, six, seven, eight, nine, ten, ormore of the above described polynucleotide fragments of the invention incombination with a polynucleotide sequence delineated in Table 1C column6. Additional, representative examples of polynucleotide fragments ofthe invention comprise, or alternatively consist of, a nucleic acidsequence comprising one, two, three, four, five, six, seven, eight,nine, ten, or more of the above described polynucleotide fragments ofthe invention in combination with a polynucleotide sequence that is thecomplementary strand of a sequence delineated in column 6 of Table 1C.In further embodiments, the above-described polynucleotide fragments ofthe invention comprise, or alternatively consist of, sequencesdelineated in Table 1C, column 6, and have a nucleic acid sequence whichis different from that of the BAC fragment having the sequence disclosedin SEQ ID NO:B (see Table 1C, column 5). In additional embodiments, theabove-described polynucleotide fragments of the invention comprise, oralternatively consist of, sequences delineated in Table 1C, column 6,and have a nucleic acid sequence which is different from that publishedfor the BAC clone identified as BAC ID NO:A (see Table 1C, column 4). Inadditional embodiments, the above-described polynucleotides of theinvention comprise, or alternatively consist of, sequences delineatedTable 1C, column 6, and have a nucleic acid sequence which is differentfrom that contained in the BAC clone identified as BAC ID NO:A (seeTable 1C, column 4). Polypeptides encoded by these polynucleotides,other polynucleotides that encode these polypeptides, and antibodiesthat bind these polypeptides are also encompassed by the invention.Additionally, fragments and variants of the above-describedpolynucleotides and polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more fragments of the sequences delineatedin column 6 of Table 1C, and the polynucleotide sequence of SEQ ID NO:X(e.g., as defined in Table 1C, column 2) or fragments or variantsthereof. Polypeptides encoded by these polynucleotides, otherpolynucleotides that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more fragments of the sequences delineatedin column 6 of Table 1C which correspond to the same ATCC Deposit No: Z(see Table 1C, column 1), and the polynucleotide sequence of SEQ ID NO:X(e.g., as defined in Table 1A, 1B, or 1C) or fragments or variantsthereof. Polypeptides encoded by these polynucleotides, otherpolynucleotides that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention.

In further specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of, one, two, three, four, five, six,seven, eight, nine, ten, or more fragments of the sequences delineatedin the same row of column 6 of Table 1C, and the polynucleotide sequenceof SEQ ID NO:X (e.g., as defined in Table 1A, 1B, or 1C) or fragments orvariants thereof. Polypeptides encoded by these polynucleotides, otherpolynucleotides that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of a polynucleotide sequence in whichthe 3′ 10 polynucleotides of one of the sequences delineated in column 6of Table 1C and the 5′ 10 polynucleotides of the sequence of SEQ ID NO:Xare directly contiguous. Nucleic acids that hybridize to the complementof these 20 contiguous polynucleotides under stringent hybridizationconditions or alternatively, under lower stringency conditions, are alsoencompassed by the invention. Polypeptides encoded by thesepolynucleotides and/or nucleic acids, other polynucleotides and/ornucleic acids that encode these polypeptides, and antibodies that bindthese polypeptides are also encompassed by the invention. Additionally,fragments and variants of the above-described polynucleotides, nucleicacids, and polypeptides are also encompassed by the invention.

In additional specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of a polynucleotide sequence in whichthe 3′ 10 polynucleotides of one of the sequences delineated in column 6of Table 1C and the 5′ 10 polynucleotides of a fragment or variant ofthe sequence of SEQ ID NO:X (e.g., as described herein) are directlycontiguous Nucleic acids which hybridize to the complement of these 20contiguous polynucleotides under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention. Polypeptides encoded by these polynucleotides and/ornucleic acids, other polynucleotides and/or nucleic acids encoding thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides, nucleic acids, and polypeptides arealso encompassed by the invention.

In further specific embodiments, polynucleotides of the inventioncomprise, or alternatively consist of a polynucleotide sequence in whichthe 3′ 10 polynucleotides of a fragment or variant of the sequence ofSEQ ID NO:X and the 5′ 10 polynucleotides of the sequence of one of thesequences delineated in column 6 of Table 1C are directly contiguous.Nucleic acids that hybridize to the complement of these 20 contiguouspolynucleotides under stringent hybridization conditions oralternatively, under lower stringency conditions, are also encompassedby the invention. Polypeptides encoded by these polynucleotides and/ornucleic acids, other polynucleotides and/or nucleic acids encoding thesepolypeptides, and antibodies that bind these polypeptides are alsoencompassed by the invention. Additionally, fragments and variants ofthe above-described polynucleotides, nucleic acids, and polypeptides arealso encompassed by the invention.

In specific embodiments, polynucleotides of the invention comprise, oralternatively consist of a polynucleotide sequence in which the 3′ 10polynucleotides of one of the sequences delineated in column 6 of Table1C and the 5′ 10 polynucleotides of another sequence in column 6 aredirectly contiguous. In preferred embodiments, the 3′ 10 polynucleotidesof one of the sequences delineated in column 6 of Table 1C is directlycontiguous with the 5′ 10 polynucleotides of the next sequential exondelineated in Table 1C, column 6. Nucleic acids that hybridize to thecomplement of these 20 contiguous polynucleotides under stringenthybridization conditions or alternatively, under lower stringencyconditions, are also encompassed by the invention. Polypeptides encodedby these polynucleotides and/or nucleic acids, other polynucleotidesand/or nucleic acids encoding these polypeptides, and antibodies thatbind these polypeptides are also encompassed by the invention.Additionally, fragments and variants of the above-describedpolynucleotides, nucleic acids, and polypeptides are also encompassed bythe invention.

In the present invention, a “polypeptide fragment” refers to an aminoacid sequence which is a portion of the amino acid sequence contained inSEQ ID NO:Y, is a portion of the mature form of SEQ ID NO:Y as definedin columns 14 and 15 of Table 1A, a portion of an amino acid sequenceencoded by the portion of SEQ ID NO:X as defined in columnns 8 and 9 ofTable 2, is a portion of an amino acid sequence encoded by thepolynucleotide sequence of SEQ ID NO:X, is a portion of an amino acidsequence encoded by the complement of the polynucleotide sequence in SEQID NO:X, is a portion of the amino acid sequence of a mature (secreted)polypeptide encoded by the cDNA contained in ATCC Deposit No: Z, and/oris a portion of an amino acid sequence encoded by the cDNA contained inATCC Deposit No: Z. Protein (polypeptide) fragments may be“free-standing,” or comprised within a larger polypeptide of which thefragment forms a part or region, most preferably as a single continuousregion. Representative examples of polypeptide fragments of theinvention, include, for example, fragments comprising, or alternativelyconsisting of, from about amino acid number 1-20, 21-40, 41-60, 61-80,81-100, 101-120, 121-140, 141-160, 161-180, 181-200, 201-220, 221-240,241-260, 261-280, 281-300, 301-320, 321-340, 341-360, 361-380, 381-400,401-420, 421-440, 441-460, 461-480, 481-500, 501-520, 521-540, 541-560,561-580, 581-600, 601-620, 621-640, 641-660, 661-680, 681-700, 701-720,721-740, 741-760, 761-780, 781-800, 801-820, 821-840, 841-860, 861-880,881-900, 901-920, 921-940, 941-960, 961-980, 981-1000, 1001-1020,1021-1040, 1041-1060, 1061-1080, 1081-1100, 1101-1120, 1121-1140,1141-1160, 1161-1180, 1181-1200, 1201-1220, 1221-1240, 1241-1260,1261-1280, 1281-1300, 1301-1320, 1321-1340, 1341-1360, 1361-1380,1381-1400, 1401-1420, 1421-1440, or 1441 to the end of the coding regionof cDNA and SEQ ID NO: Y. In a preferred embodiment, polypeptidefragments of the invention include, for example, fragments comprising,or alternatively consisting of, from about amino acid number 1-20,21-40, 41-60, 61-80, 81-100, 101-120, 121-140, 141-160, 161-180,181-200, 201-220, 221-240, 241-260, 261-280, 281-300, 301-320, 321-340,341-360, 361-380, 381-400, 401-420, 421-440, 441-460, 461-480, 481-500,501-520, 521-540, 541-560, 561-580, 581-600, 601-620, 621-640, 641-660,661-680, 681-700, 701-720, 721-740, 741-760, 761-780, 781-800, 801-820,821-840, 841-860, 861-880, 881-900, 901-920, 921-940, 941-960, 961-980,981-1000, 1001-1020, 1021-1040, 1041-1060, 1061-1080, 1081-1100,1101-1120, 1121-1140, 1141-1160, 1161-1180, 1181-1200, 1201-1220,1221-1240, 1241-1260, 1261-1280, 1281-1300, 1301-1320, 1321-1340,1341-1360, 1361-1380, 1381-1400, 1401-1420, 1421-1440, or 1441 to theend of the coding region of SEQ ID NO:Y. Moreover, polypeptide fragmentsof the invention may be at least about 10, 15, 20, 25, 30, 35, 40, 45,50, 55, 60, 65, 70, 75, 80, 85, 90, 100, 110, 120, 130, 140, or 150amino acids in length. In this context “about” includes the particularlyrecited ranges or values, or ranges or values larger or smaller byseveral (5, 4, 3, 2, or 1) amino acids, at either extreme or at bothextremes. Polynucleotides encoding these polypeptide fragments are alsoencompassed by the invention.

Even if deletion of one or more amino acids from the N-terminus of aprotein results in modification of loss of one or more biologicalfunctions of the protein, other functional activities (e.g., biologicalactivities; such as, for example, activity useful in detecting,preventing, diagnosing, prognosticating, treating, and/or amelioratingallergic and/or asthmatic diseases and disorders; ability tomultimerize; ability to bind a ligand; antigenic ability useful forproduction of polypeptide specific antibodies) may still be retained.For example, the ability of shortened muteins to induce and/or bind toantibodies which recognize the complete or mature forms of thepolypeptides generally will be retained when less than the majority ofthe residues of the complete or mature polypeptide are removed from theN-terminus. Whether a particular polypeptide lacking N-terminal residuesof a complete polypeptide retains such immunologic activities canreadily be determined by routine methods described herein and otherwiseknown in the art. It is not unlikely that a mutein with a large numberof deleted N-terminal amino acid residues may retain some biological orimmunogenic activities. In fact, peptides composed of as few as sixamino acid residues may often evoke an immune response.

Accordingly, polypeptide fragments include the secreted protein as wellas the mature form. Further preferred polypeptide fragments include thesecreted protein or the mature form having a continuous series ofdeleted residues from the amino or the carboxy terminus, or both. Forexample, any number of amino acids, ranging from 1-60, can be deletedfrom the amino terminus of either the secreted polypeptide or the matureform. Similarly, any number of amino acids, ranging from 1-30, can bedeleted from the carboxy terminus of the secreted protein or matureform. Furthermore, any combination of the above amino and carboxyterminus deletions are preferred. Similarly, polynucleotides encodingthese polypeptide fragments are also preferred.

The present invention further provides polypeptides having one or moreresidues deleted from the amino terminus of the amino acid sequence of apolypeptide disclosed herein (e.g., a polypeptide of SEQ ID NO:Y, apolypeptide as defined in columns 14 and 15 of Table 1A, a polypeptideencoded by the polynucleotide sequence contained in SEQ ID NO:X or thecomplement thereof, a polypeptide encoded by the portion of SEQ ID NO:Xas defined in columns 8 and 9 of Table 2, a polypeptide encoded by theportion of SEQ ID NO:B as defined in column 6 of Table 1C, a polypeptideencoded by the cDNA contained in ATCC Deposit No: Z, and/or a maturepolypeptide encoded by the cDNA contained in ATCC Deposit No: Z). Inparticular, N-terminal deletions may be described by the general formulam-q, where q is a whole integer representing the total number of aminoacid residues in a polypeptide of the invention (e.g., the polypeptidedisclosed in SEQ ID NO:Y, the mature (secreted) portion of SEQ ID NO:Yas defined in columns 14 and 15 of Table 1A, or the polypeptide encodedby the portion of SEQ ID NO:X as defined in columns 8 and 9 of Table 2),and m is defined as any integer ranging from 2 to q-6. Polynucleotidesencoding these polypeptides are also encompassed by the invention.

The present invention further provides polypeptides having one or moreresidues from the carboxy terminus of the amino acid sequence of apolypeptide disclosed herein (e.g., a polypeptide of SEQ ID NO:Y, themature (secreted) portion of SEQ ID NO:Y as defined in columns 14 and 15of Table 1A, a polypeptide encoded by the polynucleotide sequencecontained in SEQ ID NO:X, a polypeptide encoded by the portion of SEQ IDNO:X as defined in columns 8 and 9 of Table 2, a polypeptide encoded bythe portion of SEQ ID NO:B as defined in column 6 of Table 1C, apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z, and/ora mature polypeptide encoded by the cDNA contained in ATCC Deposit No:Z). In particular, C-terminal deletions may be described by the generalformula 1-n, where n is any whole integer ranging from 6 to q-1, andwhere n corresponds to the position of amino acid residue in apolypeptide of the invention. Polynucleotides encoding thesepolypeptides are also encompassed by the invention.

In addition, any of the N- or C-terminal deletions described above canbe combined to produce a N- and C-terminal deleted polypeptide. Theinvention also provides polypeptides having one or more amino acidsdeleted from both the amino and the carboxyl termini, which may bedescribed generally as having residues m-n of a polypeptide encoded bySEQ ID NO:X (e.g., including, but not limited to, the preferredpolypeptide disclosed as SEQ ID NO:Y, the mature (secreted) portion ofSEQ ID NO:Y as defined in columns 14 and 15 of Table 1A, and thepolypeptide encoded by the portion of SEQ ID NO:X as defined in columns8 and 9 of Table 2), the cDNA contained in ATCC Deposit No: Z, and/orthe complement thereof, where n and m are integers as described above.Polynucleotides encoding these polypeptides are also encompassed by theinvention.

Also as mentioned above, even if deletion of one or more amino acidsfrom the C-terminus of a protein results in modification of loss of oneor more biological functions of the protein, other functional activities(e.g., biological activities such as, for example, activity useful indetecting, preventing, diagnosing, prognosticating, treating, and/orameliorating allergic and/or asthmatic diseases and disorders; abilityto multimerize; ability to bind a ligand; antigenic ability useful forproduction of polypeptide specific antibodies) may still be retained.For example the ability of the shortened mutein to induce and/or bind toantibodies which recognize the complete or mature forms of thepolypeptide generally will be retained when less than the majority ofthe residues of the complete or mature polypeptide are removed from theC-terminus. Whether a particular polypeptide lacking C-terminal residuesof a complete polypeptide retains such immunologic activities canreadily be determined by routine methods described herein and otherwiseknown in the art. It is not unlikely that a mutein with a large numberof deleted C-terminal amino acid residues may retain some biological orimmunogenic activities. In fact, peptides composed of as few as sixamino acid residues may often evoke an immune response.

The present application is also directed to proteins containingpolypeptides at least 80%, 85%, 90%, 95%, 96%, 97%, 98% or 99% identicalto a polypeptide sequence set forth herein. In preferred embodiments,the application is directed to proteins containing polypeptides at least80%, 85%, 90%, 95%, 96%, 97%, 98% or 99% identical to polypeptideshaving the amino acid sequence of the specific N- and C-terminaldeletions. Polynucleotides encoding these polypeptides are alsoencompassed by the invention.

Any polypeptide sequence encoded by, for example, the polynucleotidesequences set forth as SEQ ID NO:X or the complement thereof,(presented, for example, in Tables 1A and 2), the cDNA contained in ATCCDeposit No: Z, or the polynucleotide sequence as defined in column 6 ofTable 1C, may be analyzed to determine certain preferred regions of thepolypeptide. For example, the amino acid sequence of a polypeptideencoded by a polynucleotide sequence of SEQ ID NO:X (e.g., thepolypeptide of SEQ ID NO:Y and the polypeptide encoded by the portion ofSEQ ID NO:X as defined in columnns 8 and 9 of Table 2) or the cDNAcontained in ATCC Deposit No: Z may be analyzed using the defaultparameters of the DNASTAR computer algorithm (DNASTAR, Inc., 1228 S.Park St., Madison, Wis. 53715 USA; http://www.dnastar.com/).

Polypeptide regions that may be routinely obtained using the DNASTARcomputer algorithm include, but are not limited to, Garnier-Robsonalpha-regions, beta-regions, turn-regions, and coil-regions; Chou-Fasmanalpha-regions, beta-regions, and turn-regions; Kyte-Doolittlehydrophilic regions and hydrophobic regions; Eisenberg alpha- andbeta-amphipathic regions; Karplus-Schulz flexible regions; Eminisurface-forming regions; and Jameson-Wolf regions of high antigenicindex. Among highly preferred polynucleotides of the invention in thisregard are those that encode polypeptides comprising regions thatcombine several structural features, such as several (e.g., 1, 2, 3 or4) of the features set out above.

Additionally, Kyte-Doolittle hydrophilic regions and hydrophobicregions, Emini surface-forming regions, and Jameson-Wolf regions of highantigenic index (i.e., containing four or more contiguous amino acidshaving an antigenic index of greater than or equal to 1.5, as identifiedusing the default parameters of the Jameson-Wolf program) can routinelybe used to determine polypeptide regions that exhibit a high degree ofpotential for antigenicity. Regions of high antigenicity are determinedfrom data by DNASTAR analysis by choosing values that represent regionsof the polypeptide which are likely to be exposed on the surface of thepolypeptide in an environment in which antigen recognition may occur inthe process of initiation of an immune response.

Preferred polypeptide fragments of the invention are fragmentscomprising, or alternatively, consisting of, an amino acid sequence thatdisplays a functional activity (e.g. biological activity such as, forexample, activity useful in detecting, preventing, diagnosing,prognosticating, treating, and/or ameliorating allergic and/or asthmaticdiseases and disorders; ability to multimerize; ability to bind aligand; antigenic ability useful for production of polypeptide specificantibodies) of the polypeptide sequence of which the amino acid sequenceis a fragment. By a polypeptide displaying a “functional activity” ismeant a polypeptide capable of one or more known functional activitiesassociated with a full-length protein, such as, for example, biologicalactivity, antigenicity, immunogenicity, and/or multimerization, asdescribed herein.

Other preferred polypeptide fragments are biologically active fragments.Biologically active fragments are those exhibiting activity similar, butnot necessarily identical, to an activity of the polypeptide of thepresent invention. The biological activity of the fragments may includean improved desired activity, or a decreased undesirable activity.

In preferred embodiments, polypeptides of the invention comprise, oralternatively consist of, one, two, three, four, five or more of theantigenic fragments of the polypeptide of SEQ ID NO:Y, or portionsthereof. Polynucleotides encoding these polypeptides are alsoencompassed by the invention.

Epitopes and Antibodies

The present invention encompasses polypeptides comprising, oralternatively consisting of, an epitope of: the polypeptide sequenceshown in SEQ ID NO:Y; a polypeptide sequence encoded by SEQ ID NO:X orthe complementary strand thereto; the polypeptide sequence encoded bythe portion of SEQ ID NO:X as defined in columns 8 and 9 of Table 2; thepolypeptide sequence encoded by the portion of SEQ ID NO:B as defined incolumn 6 of Table 1C or the complement thereto; the polypeptide sequenceencoded by the cDNA contained in ATCC Deposit No: Z; or the polypeptidesequence encoded by a polynucleotide that hybridizes to the sequence ofSEQ ID NO:X, the complement of the sequence of SEQ ID NO:X, thecomplement of a portion of SEQ ID NO:X as defined in columns 8 and 9 ofTable 2, or the cDNA sequence contained in ATCC Deposit No: Z understringent hybridization conditions or alternatively, under lowerstringency hybridization as defined supra. The present invention furtherencompasses polynucleotide sequences encoding an epitope of apolypeptide sequence of the invention (such as, for example, thesequence disclosed in SEQ ID NO:X, or a fragment thereof),polynucleotide sequences of the complementary strand of a polynucleotidesequence encoding an epitope of the invention, and polynucleotidesequences which hybridize to the complementary strand under stringenthybridization conditions or alternatively, under lower stringencyhybridization conditions defined supra.

The term “epitopes,” as used herein, refers to portions of a polypeptidehaving antigenic or immunogenic activity in an animal, preferably amammal, and most preferably in a human. In a preferred embodiment, thepresent invention encompasses a polypeptide comprising an epitope, aswell as the polynucleotide encoding this polypeptide. An “immunogenicepitope,” as used herein, is defined as a portion of a protein thatelicits an antibody response in an animal, as determined by any methodknown in the art, for example, by the methods for generating antibodiesdescribed infra. (See, for example, Geysen et al., Proc. Natl. Acad.Sci. USA 81:3998-4002 (1983)). The term “antigenic epitope,” as usedherein, is defined as a portion of a protein to which an antibody canimmunospecifically bind its antigen as determined by any method wellknown in the art, for example, by the immunoassays described herein.Immunospecific binding excludes non-specific binding but does notnecessarily exclude cross-reactivity with other antigens. Antigenicepitopes need not necessarily be immunogenic.

Fragments which function as epitopes may be produced by any conventionalmeans. (See, e.g., Houghten, R. A., Proc. Natl. Acad. Sci. USA82:5131-5135 (1985) further described in U.S. Pat. No. 4,631,211.)

In the present invention, antigenic epitopes preferably contain asequence of at least 4, at least 5, at least 6, at least 7, morepreferably at least 8, at least 9, at least 10, at least 11, at least12, at least 13, at least 14, at least 15, at least 20, at least 25, atleast 30, at least 40, at least 50, and, most preferably, between about15 to about 30 amino acids. Preferred polypeptides comprisingimmunogenic or antigenic epitopes are at least 10, 15, 20, 25, 30, 35,40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, or 100 amino acidresidues in length. Additional non-exclusive preferred antigenicepitopes include the antigenic epitopes disclosed herein, as well asportions thereof. Antigenic epitopes are useful, for example, to raiseantibodies, including monoclonal antibodies, which specifically bind theepitope. Preferred antigenic epitopes include the antigenic epitopesdisclosed herein, as well as any combination of two, three, four, fiveor more of these antigenic epitopes. Antigenic epitopes can be used asthe target molecules in immunoassays. (See, for instance, Wilson et al.,Cell 37:767-778 (1984); Sutcliffe et al., Science 219:660-666 (1983)).

Non-limiting examples of epitopes of polypeptides that can be used togenerate antibodies of the invention include a polypeptide comprising,or alternatively consisting of, at least one, two, three, four, five,six or more of the portion(s) of SEQ ID NO:Y specified in Table 1B.These polypeptide fragments have been determined to bear antigenicepitopes of the proteins of the invention by the analysis of theJameson-Wolf antigenic index, which is included in the DNAStar suite ofcomputer programs. By “comprise” it is intended that a polypeptidecontains at least one, two, three, four, five, six or more of theportion(s) of SEQ ID NO:Y shown in Table 1B, but it may containadditional flanking residues on either the amino or carboxyl termini ofthe recited portion. Such additional flanking sequences are preferablysequences naturally found adjacent to the portion; i.e., contiguoussequence shown in SEQ ID NO:Y. The flanking sequence may, however, besequences from a heterolgous polypeptide, such as from another proteindescribed herein or from a heterologous polypeptide not describedherein. In particular embodiments, epitope portions of a polypeptide ofthe invention comprise one, two, three, or more of the portions of SEQID NO:Y shown in Table 1B.

Similarly, immunogenic epitopes can be used, for example, to induceantibodies according to methods well known in the art. See, forinstance, Sutcliffe et al., supra; Wilson et al., supra; Chow et al.,Proc. Natl. Acad. Sci. USA 82:910-914; and Bittle et al., J. Gen. Virol.66:2347-2354 (1985). Preferred immunogenic epitopes include theimmunogenic epitopes disclosed herein, as well as any combination oftwo, three, four, five or more of these immunogenic epitopes. Thepolypeptides comprising one or more immunogenic epitopes may bepresented for eliciting an antibody response together with a carrierprotein, such as an albumin, to an animal system (such as rabbit ormouse), or, if the polypeptide is of sufficient length (at least about25 amino acids), the polypeptide may be presented without a carrier.However, immunogenic epitopes comprising as few as 8 to 10 amino acidshave been shown to be sufficient to raise antibodies capable of bindingto, at the very least, linear epitopes in a denatured polypeptide (e.g.,in Western blotting).

Epitope-bearing polypeptides of the present invention may be used toinduce antibodies according to methods well known in the art including,but not limited to, in vivo immunization, in vitro immunization, andphage display methods. See, e.g., Sutcliffe et al., supra; Wilson etal., supra, and Bittle et al., J. Gen. Virol., 66:2347-2354 (1985). Ifin vivo immunization is used, animals may be immunized with freepeptide; however, anti-peptide antibody titer may be boosted by couplingthe peptide to a macromolecular carrier, such as keyhole limpethemacyanin (KLH) or tetanus toxoid. For instance, peptides containingcysteine residues may be coupled to a carrier using a linker such asmaleimidobenzoyl-N-hydroxysuccinimide ester (MBS), while other peptidesmay be coupled to carriers using a more general linking agent such asglutaraldehyde. Animals such as rabbits, rats and mice are immunizedwith either free or carrier-coupled peptides, for instance, byintraperitoneal and/or intradermal injection of emulsions containingabout 100 μg of peptide or carrier protein and Freund's adjuvant or anyother adjuvant known for stimulating an immune response. Several boosterinjections may be needed, for instance, at intervals of about two weeks,to provide a useful titer of anti-peptide antibody that can be detected,for example, by ELISA assay using free peptide adsorbed to a solidsurface. The titer of anti-peptide antibodies in serum from an immunizedanimal may be increased by selection of anti-peptide antibodies, forinstance, by adsorption to the peptide on a solid support and elution ofthe selected antibodies according to methods well known in the art.

As one of skill in the art will appreciate, and as discussed above, thepolypeptides of the present invention (e.g., those comprising animmunogenic or antigenic epitope) can be fused to heterologouspolypeptide sequences. For example, polypeptides of the presentinvention (including fragments or variants thereof), may be fused withthe constant domain of immunoglobulins (IgA, IgE, IgG, IgM), or portionsthereof (CH1, CH2, CH3, or any combination thereof and portions thereof,resulting in chimeric polypeptides. By way of another non-limitingexample, polypeptides and/or antibodies of the present invention(including fragments or variants thereof) may be fused with albumin(including but not limited to recombinant human serum albumin orfragments or variants thereof (see, e.g., U.S. Pat. No. 5,876,969,issued Mar. 2, 1999, EP Patent 0 413 622, and U.S. Pat. No. 5,766,883,issued Jun. 16, 1998, herein incorporated by reference in theirentirety)). In a preferred embodiment, polypeptides and/or antibodies ofthe present invention (including fragments or variants thereof) arefused with the mature form of human serum albumin (i.e., amino acids1-585 of human serum albumin as shown in FIGS. 1 and 2 of EP Patent 0322 094) which is herein incorporated by reference in its entirety. Inanother preferred embodiment, polypeptides and/or antibodies of thepresent invention (including fragments or variants thereof) are fusedwith polypeptide fragments comprising, or alternatively consisting of,amino acid residues 1-z of human serum albumin, where z is an integerfrom 369 to 419, as described in U.S. Pat. No. 5,766,883 hereinincorporated by reference in its entirety. Polypeptides and/orantibodies of the present invention (including fragments or variantsthereof) may be fused to either the N- or C-terminal end of theheterologous protein (e.g., immunoglobulin Fc polypeptide or human serumalbumin polypeptide). Polynucleotides encoding fusion proteins of theinvention are also encompassed by the invention.

Such fusion proteins as those described above may facilitatepurification and may increase half-life in vivo. This has been shown forchimeric proteins consisting of the first two domains of the humanCD4-polypeptide and various domains of the constant regions of the heavyor light chains of mammalian immunoglobulins. See, e.g., EP 394,827;Traunecker et al., Nature, 331:84-86 (1988). Enhanced delivery of anantigen across the epithelial barrier to the immune system has beendemonstrated for antigens (e.g., insulin) conjugated to an FcRn bindingpartner such as IgG or Fc fragments (see, e.g., PCT Publications WO96/22024 and WO 99/04813). IgG fusion proteins that have adisulfide-linked dimeric structure due to the IgG portion desulfidebonds have also been found to be more efficient in binding andneutralizing other molecules than monomeric polypeptides or fragmentsthereof alone. See, e.g., Fountoulakis et al., J. Biochem.,270:3958-3964 (1995). Nucleic acids encoding the above epitopes can alsobe recombined with a gene of interest as an epitope tag (e.g., thehemagglutinin (HA) tag or flag tag) to aid in detection and purificationof the expressed polypeptide. For example, a system described byJanknecht et al. allows for the ready purification of non-denaturedfusion proteins expressed in human cell lines (Janknecht et al., 1991,Proc. Natl. Acad. Sci. USA 88:8972-897). In this system, the gene ofinterest is subcloned into a vaccinia recombination plasmid such thatthe open reading frame of the gene is translationally fused to anamino-terminal tag consisting of six histidine residues. The tag servesas a matrix-binding domain for the fusion protein. Extracts from cellsinfected with the recombinant vaccinia virus are loaded onto Ni2+nitriloacetic acid-agarose column and histidine-tagged proteins can beselectively eluted with imidazole-containing buffers.

Fusion Proteins

Any polypeptide of the present invention can be used to generate fusionproteins. For example, the polypeptide of the present invention, whenfused to a second protein, can be used as an antigenic tag. Antibodiesraised against the polypeptide of the present invention can be used toindirectly detect the second protein by binding to the polypeptide.Moreover, because secreted proteins target cellular locations based ontrafficking signals, polypeptides of the present invention which areshown to be secreted can be used as targeting molecules once fused toother proteins.

Examples of domains that can be fused to polypeptides of the presentinvention include not only heterologous signal sequences, but also otherheterologous functional regions. The fusion does not necessarily need tobe direct, but may occur through linker sequences.

In certain preferred embodiments, proteins of the invention are fusionproteins comprising an amino acid sequence that is an N and/orC-terminal deletion of a polypeptide of the invention. In preferredembodiments, the invention is directed to a fusion protein comprising anamino acid sequence that is at least 90%, 95%, 96%, 97%, 98% or 99%identical to a polypeptide sequence of the invention. Polynucleotidesencoding these proteins are also encompassed by the invention.

Moreover, fusion proteins may also be engineered to improvecharacteristics of the polypeptide of the present invention. Forinstance, a region of additional amino acids, particularly charged aminoacids, may be added to the N-terminus of the polypeptide to improvestability and persistence during purification from the host cell orsubsequent handling and storage. Also, peptide moieties may be added tothe polypeptide to facilitate purification. Such regions may be removedprior to final preparation of the polypeptide. The addition of peptidemoieties to facilitate handling of polypeptides is familiar and routinetechniques in the art.

As one of skill in the art will appreciate that, as discussed above,polypeptides of the present invention, and epitope-bearing fragmentsthereof, can be combined with heterologous polypeptide sequences. Forexample, the polypeptides of the present invention may be fused withheterologous polypeptide sequences, for example, the polypeptides of thepresent invention may be fused with the constant domain ofimmunoglobulins (IgA, IgE, IgG, IgM) or portions thereof (CH1, CH2, CH3,and any combination thereof, including both entire domains and portionsthereof), or albumin (including, but not limited to, native orrecombinant human albumin or fragments or variants thereof (see, e.g.,U.S. Pat. No. 5,876,969, issued Mar. 2, 1999, EP Patent 0 413 622, andU.S. Pat. No. 5,766,883, issued Jun. 16, 1998, herein incorporated byreference in their entirety)), resulting in chimeric polypeptides. Forexample, EP-A-O 464 533 (Canadian counterpart 2045869) discloses fusionproteins comprising various portions of constant region ofimmunoglobulin molecules together with another human protein or partthereof. In many cases, the Fc part in a fusion protein is beneficial intherapy and diagnosis, and thus can result in, for example, improvedpharmacokinetic properties (EP-A 0232 262). Alternatively, deleting theFc part after the fusion protein has been expressed, detected, andpurified, would be desired. For example, the Fc portion may hindertherapy and diagnosis if the fusion protein is used as an antigen forimmunizations. In drug discovery, for example, human proteins, such ashIL-5, have been fused with Fc portions for the purpose ofhigh-throughput screening assays to identify antagonists of hIL-5. See,D. Bennett et al., J. Molecular Recognition 8:52-58 (1995); K. Johansonet al., J. Biol. Chem. 270:9459-9471 (1995).

Moreover, the polypeptides of the present invention can be fused tomarker sequences, such as a polypeptide that facilitates purification ofthe fused polypeptide. In preferred embodiments, the marker amino acidsequence is a hexa-histidine peptide, such as the tag provided in a pQEvector (QIAGEN, Inc., 9259 Eton Avenue, Chatsworth, Calif., 91311),among others, many of which are commercially available. As described inGentz et al., Proc. Natl. Acad. Sci. USA 86:821-824 (1989), forinstance, hexa-histidine provides for convenient purification of thefusion protein. Another peptide tag useful for purification, the “HA”tag, corresponds to an epitope derived from the influenza hemagglutininprotein (Wilson et al., Cell 37:767 (1984)).

Additional fusion proteins of the invention may be generated through thetechniques of gene-shuffling, motif-shuffling, exon-shuffling, and/orcodon-shuffling (collectively referred to as “DNA shuffling”). DNAshuffling may be employed to modulate the activities of polypeptides ofthe invention, such methods can be used to generate polypeptides withaltered activity, as well as agonists and antagonists of thepolypeptides. See, generally, U.S. Pat. Nos. 5,605,793; 5,811,238;5,830,721; 5,834,252; and 5,837,458, and Patten et al., Curr. OpinionBiotechnol. 8:724-33 (1997); Harayama, Trends Biotechnol. 16(2):76-82(1998); Hansson, et al., J. Mol. Biol. 287:265-76 (1999); and Lorenzoand Blasco, Biotechniques 24(2):308-13 (1998) (each of these patents andpublications are hereby incorporated by reference in its entirety). Inone embodiment, alteration of polynucleotides corresponding to SEQ IDNO:X and the polypeptides encoded by these polynucleotides may beachieved by DNA shuffling. DNA shuffling involves the assembly of two ormore DNA segments by homologous or site-specific recombination togenerate variation in the polynucleotide sequence. In anotherembodiment, polynucleotides of the invention, or the encodedpolypeptides, may be altered by being subjected to random mutagenesis byerror-prone PCR, random nucleotide insertion or other methods prior torecombination. In another embodiment, one or more components, motifs,sections, parts, domains, fragments, etc., of a polynucleotide encodinga polypeptide of the invention may be recombined with one or morecomponents, motifs, sections, parts, domains, fragments, etc. of one ormore heterologous molecules.

Thus, any of these above fusions can be engineered using thepolynucleotides or the polypeptides of the present invention.

Recombinant and Synthetic Production of Polypeptides of the Invention

The present invention also relates to vectors containing thepolynucleotide of the present invention, host cells, and the productionof polypeptides by synthetic and recombinant techniques. The vector maybe, for example, a phage, plasmid, viral, or retroviral vector.Retroviral vectors may be replication competent or replicationdefective. In the latter case, viral propagation generally will occuronly in complementing host cells.

The polynucleotides of the invention may be joined to a vectorcontaining a selectable marker for propagation in a host. Generally, aplasmid vector is introduced in a precipitate, such as a calciumphosphate precipitate, or in a complex with a charged lipid. If thevector is a virus, it may be packaged in vitro using an appropriatepackaging cell line and then transduced into host cells.

The polynucleotide insert should be operatively linked to an appropriatepromoter, such as the phage lambda PL promoter, the E. coli lac, trp,phoA and tac promoters, the SV40 early and late promoters and promotersof retroviral LTRs, to name a few. Other suitable promoters will beknown to the skilled artisan. The expression constructs will furthercontain sites for transcription initiation, termination, and, in thetranscribed region, a ribosome-binding site for translation. The codingportion of the transcripts expressed by the constructs will preferablyinclude a translation initiating codon at the beginning and atermination codon (UAA, UGA or UAG) appropriately positioned at the endof the polypeptide to be translated.

As indicated, the expression vectors will preferably include at leastone selectable marker. Such markers include dihydrofolate reductase,G418, glutamine synthase, or neomycin resistance for eukaryotic cellculture, and tetracycline, kanamycin or ampicillin resistance genes forculturing in E. coli and other bacteria. Representative examples ofappropriate hosts include, but are not limited to, bacterial cells, suchas E. coli, Streptomyces and Salmonella typhimurium cells; fungal cells,such as yeast cells (e.g., Saccharomyces cerevisiae or Pichia pastoris(ATCC Accession No. 201178)); insect cells such as Drosophila S2 andSpodoptera Sf9 cells; animal cells such as CHO, COS, 293, and Bowesmelanoma cells; and plant cells. Appropriate culture mediums andconditions for the above-described host cells are known in the art.

Among vectors preferred for use in bacteria include pQE70, pQE60 andpQE-9, available from QIAGEN, Inc.; pBluescript vectors, Phagescriptvectors, pNH8A, pNH16a, pNH18A, pNH46A, available from StratageneCloning Systems, Inc.; and ptrc99a, pKK223-3, pKK233-3, pDR540, pRIT5available from Pharmacia Biotech, Inc. Among preferred eukaryoticvectors are pWLNEO, pSV2CAT, pOG44, pXT1 and pSG available fromStratagene; and pSVK3, pBPV, pMSG and pSVL available from Pharmacia.Preferred expression vectors for use in yeast systems include, but arenot limited to pYES2, pYD1, pTEF1/Zeo, pYES2/GS, pPICZ, pGAPZ,pGAPZalph, pPIC9, pPIC3.5, pHIL-D2, pHIL-S1, pPIC3.5K, pPIC9K, andPA0815 (all available from Invitrogen, Carlbad, Calif.). Other suitablevectors will be readily apparent to the skilled artisan.

Vectors which use glutamine synthase (GS) or DHFR as the selectablemarkers can be amplified in the presence of the drugs methioninesulphoximine or methotrexate, respectively. An advantage of glutaminesynthase based vectors is the availabilty of cell lines (e.g., themurine myeloma cell line, NS0) which are glutamine synthase negative.Glutamine synthase expression systems can also function in glutaminesynthase expressing cells (e.g., Chinese Hamster Ovary (CHO) cells) byproviding additional inhibitor to prevent the functioning of theendogenous gene. A glutamine synthase expression system and componentsthereof are detailed in PCT publications: WO87/04462; WO86/05807;WO89/01036; WO89/10404; and WO91/06657, which are hereby incorporated intheir entireties by reference herein. Additionally, glutamine synthaseexpression vectors can be obtained from Lonza Biologics, Inc.(Portsmouth, N.H.). Expression and production of monoclonal antibodiesusing a GS expression system in murine myeloma cells is described inBebbington et al., Bio/technology 10:169 (1992) and in Biblia andRobinson Biotechnol. Prog. 11:1 (1995), which are herein incorporated byreference.

The present invention also relates to host cells containing theabove-described vector constructs described herein, and additionallyencompasses host cells containing nucleotide sequences of the inventionthat are operably associated with one or more heterologous controlregions (e.g., promoter and/or enhancer) using techniques known of inthe art. The host cell can be a higher eukaryotic cell, such as amammalian cell (e.g., a human derived cell), or a lower eukaryotic cell,such as a yeast cell, or the host cell can be a prokaryotic cell, suchas a bacterial cell. A host strain may be chosen which modulates theexpression of the inserted gene sequences, or modifies and processes thegene product in the specific fashion desired. Expression from certainpromoters can be elevated in the presence of certain inducers; thusexpression of the genetically engineered polypeptide may be controlled.Furthermore, different host cells have characteristics and specificmechanisms for the translational and post-translational processing andmodification (e.g., phosphorylation, cleavage) of proteins. Appropriatecell lines can be chosen to ensure the desired modifications andprocessing of the foreign protein expressed.

Introduction of the nucleic acids and nucleic acid constructs of theinvention into the host cell can be effected by calcium phosphatetransfection, DEAE-dextran mediated transfection, cationiclipid-mediated transfection, electroporation, transduction, infection,or other methods. Such methods are described in many standard laboratorymanuals, such as Davis et al., Basic Methods In Molecular Biology(1986). It is specifically contemplated that the polypeptides of thepresent invention may in fact be expressed by a host cell lacking arecombinant vector.

In addition to encompassing host cells containing the vector constructsdiscussed herein, the invention also encompasses primary, secondary, andimmortalized host cells of vertebrate origin, particularly mammalianorigin, that have been engineered to delete or replace endogenousgenetic material (e.g., the coding sequence), and/or to include geneticmaterial (e.g., heterologous polynucleotide sequences) that is operablyassociated with polynucleotides of the invention, and which activates,alters, and/or amplifies endogenous polynucleotides. For example,techniques known in the art may be used to operably associateheterologous control regions (e.g., promoter and/or enhancer) andendogenous polynucleotide sequences via homologous recombination (see,e.g., U.S. Pat. No. 5,641,670, issued Jun. 24, 1997; InternationalPublication Number WO 96/29411; International Publication Number WO94/12650; Koller et al., Proc. Natl. Acad. Sci. USA 86:8932-8935 (1989);and Zijlstra et al., Nature 342:435-438 (1989), the disclosures of eachof which are incorporated by reference in their entireties).

Polypeptides of the invention can be recovered and purified fromrecombinant cell cultures by well-known methods including ammoniumsulfate or ethanol precipitation, acid extraction, anion or cationexchange chromatography, phosphocellulose chromatography, hydrophobicinteraction chromatography, affinity chromatography, hydroxylapatitechromatography and lectin chromatography. Most preferably, highperformance liquid chromatography (“FPLC”) is employed for purification.

Polypeptides of the present invention can also be recovered from:products purified from natural sources, including bodily fluids, tissuesand cells, whether directly isolated or cultured; products of chemicalsynthetic procedures; and products produced by recombinant techniquesfrom a prokaryotic or eukaryotic host, including, for example,bacterial, yeast, higher plant, insect, and mammalian cells. Dependingupon the host employed in a recombinant production procedure, thepolypeptides of the present invention may be glycosylated or may benon-glycosylated. In addition, polypeptides of the invention may alsoinclude an initial modified methionine residue, in some cases as aresult of host-mediated processes. Thus, it is well known in the artthat the N-terminal methionine encoded by the translation initiationcodon generally is removed with high efficiency from any protein aftertranslation in all eukaryotic cells. While the N-terminal methionine onmost proteins also is efficiently removed in most prokaryotes, for someproteins, this prokaryotic removal process is inefficient, depending onthe nature of the amino acid to which the N-terminal methionine iscovalently linked.

In one embodiment, the yeast Pichia pastoris is used to expresspolypeptides of the invention in a eukaryotic system. Pichia pastoris isa methylotrophic yeast which can metabolize methanol as its sole carbonsource. A main step in the methanol metabolization pathway is theoxidation of methanol to formaldehyde using O₂. This reaction iscatalyzed by the enzyme alcohol oxidase. In order to metabolize methanolas its sole carbon source, Pichia pastoris must generate high levels ofalcohol oxidase due, in part, to the relatively low affinity of alcoholoxidase for O₂. Consequently, in a growth medium depending on methanolas a main carbon source, the promoter region of one of the two alcoholoxidase genes (AOX1) is highly active. In the presence of methanol,alcohol oxidase produced from the AOX1 gene comprises up toapproximately 30% of the total soluble protein in Pichia pastoris. SeeEllis, S. B., et al., Mol. Cell. Biol. 5:1111-21 (1985); Koutz, P. J, etal, Yeast 5:167-77 (1989); Tschopp, J. F., et al, Nucl. Acids Res.15:3859-76 (1987). Thus, a heterologous coding sequence, such as, forexample, a polynucleotide of the present invention, under thetranscriptional regulation of all or part of the AOX1 regulatorysequence is expressed at exceptionally high levels in Pichia yeast grownin the presence of methanol.

In one example, the plasmid vector pPIC9K is used to express DNAencoding a polypeptide of the invention, as set forth herein, in aPichea yeast system essentially as described in “Pichia Protocols:Methods in Molecular Biology,” D. R. Higgins and J. Cregg, eds. TheHumana Press, Totowa, N.J., 1998. This expression vector allowsexpression and secretion of a polypeptide of the invention by virtue ofthe strong AOX1 promoter linked to the Pichia pastoris alkalinephosphatase (PHO) secretory signal peptide (i.e., leader) locatedupstream of a multiple cloning site.

Many other yeast vectors could be used in place of pPIC9K, such as,pYES2, pYD1, pTEF1/Zeo, pYES2/GS, pPICZ, pGAPZ, pGAPZalpha, pPIC9,pPIC3.5, pHIL-D2, pHIL-S1, pPIC3.5K, and PAO815, as one skilled in theart would readily appreciate, as long as the proposed expressionconstruct provides appropriately located signals for transcription,translation, secretion (if desired), and the like, including an in-frameAUG as required.

In another embodiment, high-level expression of a heterologous codingsequence, such as, for example, a polynucleotide of the presentinvention, may be achieved by cloning the heterologous polynucleotide ofthe invention into an expression vector such as, for example, pGAPZ orpGAPZalpha, and growing the yeast culture in the absence of methanol.

In addition to encompassing host cells containing the vector constructsdiscussed herein, the invention also encompasses primary, secondary, andimmortalized host cells of vertebrate origin, particularly mammalianorigin, that have been engineered to delete or replace endogenousgenetic material (e.g., coding sequence), and/or to include geneticmaterial (e.g., heterologous polynucleotide sequences) that is operablyassociated with polynucleotides of the invention, and which activates,alters, and/or amplifies endogenous polynucleotides. For example,techniques known in the art may be used to operably associateheterologous control regions (e.g., promoter and/or enhancer) andendogenous polynucleotide sequences via homologous recombination (see,e.g., U.S. Pat. No. 5,641,670, issued Jun. 24, 1997; InternationalPublication No. WO 96/29411, published Sep. 26, 1996; InternationalPublication No. WO 94/12650, published Aug. 4, 1994; Koller et al.,Proc. Natl. Acad. Sci. USA 86:8932-8935 (1989); and Zijlstra et al.,Nature 342:435-438 (1989), the disclosures of each of which areincorporated by reference in their entireties).

In addition, polypeptides of the invention can be chemically synthesizedusing techniques known in the art (e.g., see Creighton, 1983, Proteins:Structures and Molecular Principles, W.H. Freeman & Co., N.Y., andHunkapiller et al., Nature, 310:105-111 (1984)). For example, apolypeptide corresponding to a fragment of a polypeptide can besynthesized by use of a peptide synthesizer. Furthermore, if desired,nonclassical amino acids or chemical amino acid analogs can beintroduced as a substitution or addition into the polypeptide sequence.Non-classical amino acids include, but are not limited to, to theD-isomers of the common amino acids, 2,4-diaminobutyric acid, a-aminoisobutyric acid, 4-aminobutyric acid, Abu, 2-amino butyric acid, g-Abu,e-Ahx, 6-amino hexanoic acid, Aib, 2-amino isobutyric acid, 3-aminopropionic acid, omithine, norleucine, norvaline, hydroxyproline,sarcosine, citrulline, homocitrulline, cysteic acid, t-butylglycine,t-butylalanine, phenylglycine, cyclohexylalanine, b-alanine,fluoro-amino acids, designer amino acids such as b-methyl amino acids,Ca-methyl amino acids, Na-methyl amino acids, and amino acid analogs ingeneral. Furthermore, the amino acid can be D (dextrorotary) or L(levorotary).

The invention encompasses polypeptides of the present invention whichare differentially modified during or after translation, e.g., byglycosylation, acetylation, phosphorylation, amidation, derivatizationby known protecting/blocking groups, proteolytic cleavage, linkage to anantibody molecule or other cellular ligand, etc. Any of numerouschemical modifications may be carried out by known techniques, includingbut not limited, to specific chemical cleavage by cyanogen bromide,trypsin, chymotrypsin, papain, V8 protease, NaBH₄; acetylation,formylation, oxidation, reduction; metabolic synthesis in the presenceof tunicamycin; etc.

Additional post-translational modifications encompassed by the inventioninclude, for example, e.g., N-linked or O-linked carbohydrate chains,processing of N-terminal or C-terminal ends), attachment of chemicalmoieties to the amino acid backbone, chemical modifications of N-linkedor O-linked carbohydrate chains, and addition or deletion of anN-terminal methionine residue as a result of procaryotic host cellexpression. The polypeptides may also be modified with a detectablelabel, such as an enzymatic, fluorescent, isotopic or affinity label toallow for detection and isolation of the protein.

Examples of suitable enzymes include horseradish peroxidase, alkalinephosphatase, beta-galactosidase, or acetylcholinesterase; examples ofsuitable prosthetic group complexes include streptavidin/biotin andavidin/biotin; examples of suitable fluorescent materials includeumbelliferone, fluorescein, fluorescein isothiocyanate, rhodamine,dichlorotriazinylamine fluorescein, dansyl chloride or phycoerythrin; anexample of a luminescent material includes luminol; examples ofbioluminescent materials include luciferase, luciferin, and aequorin;and examples of suitable radioactive material include iodine (¹²¹I,¹²³I, ¹²⁵I, ¹³¹I), carbon (¹⁴C), sulfur (³⁵S), tritium (³H), indium(¹¹¹In, ¹¹²In, ^(113m)In, ^(115m)In), technetium (⁹⁹Tc, ^(99m)Tc),thallium (²⁰¹Ti), gallium (⁶⁸Ga, ⁶⁷Ga), palladium (¹⁰³Pd), molybdenum(⁹⁹Mo), xenon (¹³³Xe), fluorine (¹⁸F), ¹⁵³Sm, ¹⁷⁷Lu, ¹⁵⁹Gd, ¹⁴⁹Pm,¹⁴⁰La, ¹⁷⁵Yb, ¹⁶⁶Ho, ⁹⁰Y, ⁴⁷Sc, ¹⁸⁶Re, ¹⁸⁸Re, ¹⁴²Pr, ¹⁰⁵Rh, and ⁹⁷Ru.

In specific embodiments, a polypeptide of the present invention orfragment or variant thereof is attached to macrocyclic chelators thatassociate with radiometal ions, including but not limited to, ¹⁷⁷Lu,⁹⁰Y, ¹⁶⁶Ho, and ¹⁵³Sm, to polypeptides. In a preferred embodiment, theradiometal ion associated with the macrocyclic chelators is ¹¹¹In. Inanother preferred embodiment, the radiometal ion associated with themacrocyclic chelator is ⁹⁰Y. In specific embodiments, the macrocyclicchelator is 1,4,7,10-tetraazacyclododecane-N,N′,N″,N′″-tetraacetic acid(DOTA). In other specific embodiments, DOTA is attached to an antibodyof the invention or fragment thereof via a linker molecule. Examples oflinker molecules useful for conjugating DOTA to a polypeptide arecommonly known in the art—see, for example, DeNardo et al., Clin CancerRes. 4(10):2483-90 (1998); Peterson et al., Bioconjug. Chem. 10(4):553-7(1999); and Zimmerman et al, Nucl. Med. Biol. 26(8):943-50 (1999); whichare hereby incorporated by reference in their entirety.

As mentioned, the proteins of the invention may be modified by eithernatural processes, such as posttranslational processing, or by chemicalmodification techniques which are well known in the art. It will beappreciated that the same type of modification may be present in thesame or varying degrees at several sites in a given polypeptide.Polypeptides of the invention may be branched, for example, as a resultof ubiquitination, and they may be cyclic, with or without branching.Cyclic, branched, and branched cyclic polypeptides may result fromposttranslation natural processes or may be made by synthetic methods.Modifications include acetylation, acylation, ADP-ribosylation,amidation, covalent attachment of flavin, covalent attachment of a hememoiety, covalent attachment of a nucleotide or nucleotide derivative,covalent attachment of a lipid or lipid derivative, covalent attachmentof phosphotidylinositol, cross-linking, cyclization, disulfide bondformation, demethylation, formation of covalent cross-links, formationof cysteine, formation of pyroglutamate, formylation,gamma-carboxylation, glycosylation, GPI anchor formation, hydroxylation,iodination, methylation, myristoylation, oxidation, pegylation,proteolytic processing, phosphorylation, prenylation, racemization,selenoylation, sulfation, transfer-RNA mediated addition of amino acidsto proteins such as arginylation, and ubiquitination. (See, forinstance, PROTEINS—STRUCTURE AND MOLECULAR PROPERTES, 2nd Ed., T. E.Creighton, W. H. Freeman and Company, New York (1993); POSTTRANSLATIONALCOVALENT MODIFICATION OF PROTEINS, B. C. Johnson, Ed., Academic Press,New York, pgs. 1-12 (1983); Seifter et al., Meth. Enzymol. 182:626-646(1990); Rattan et al., Ann. N.Y. Acad. Sci. 663:48-62 (1992)).

Also provided by the invention are chemically modified derivatives ofthe polypeptides of the invention which may provide additionaladvantages such as increased solubility, stability and circulating timeof the polypeptide, or decreased immunogenicity (see U.S. Pat. No.4,179,337). The chemical moieties for derivitization may be selectedfrom water soluble polymers such as polyethylene glycol, ethyleneglycol/propylene glycol copolymers, carboxymethylcellulose, dextran,polyvinyl alcohol and the like. The polypeptides may be modified atrandom positions within the molecule, or at predetermined positionswithin the molecule and may include one, two, three or more attachedchemical moieties.

The polymer may be of any molecular weight, and may be branched orunbranched. For polyethylene glycol, the preferred molecular weight isbetween about 1 kDa and about 100 kDa (the term “about” indicating thatin preparations of polyethylene glycol, some molecules will weigh more,some less, than the stated molecular weight) for ease in handling andmanufacturing. Other sizes may be used, depending on the desiredtherapeutic profile (e.g., the duration of sustained release desired,the effects, if any on biological activity, the ease in handling, thedegree or lack of antigenicity and other known effects of thepolyethylene glycol to a therapeutic protein or analog). For example,the polyethylene glycol may have an average molecular weight of about200, 500, 1000, 1500, 2000, 2500, 3000, 3500, 4000, 4500, 5000, 5500,6000, 6500, 7000, 7500, 8000, 8500, 9000, 9500, 10,000, 10,500, 11,000,11,500, 12,000, 12,500, 13,000, 13,500, 14,000, 14,500, 15,000, 15,500,16,000, 16,500, 17,000, 17,500, 18,000, 18,500, 19,000, 19,500, 20,000,25,000, 30,000, 35,000, 40,000, 45,000, 50,000, 55,000, 60,000, 65,000,70,000, 75,000, 80,000, 85,000, 90,000, 95,000, or 100,000 kDa.

As noted above, the polyethylene glycol may have a branched structure.Branched polyethylene glycols are described, for example, in U.S. Pat.No. 5,643,575; Morpurgo et al., Appl. Biochem. Biotechnol. 56:59-72(1996); Vorobjev et al., Nucleosides Nucleotides 18:2745-2750 (1999);and Caliceti et al., Bioconjug. Chem. 10:638-646 (1999), the disclosuresof each of which are incorporated herein by reference.

The polyethylene glycol molecules (or other chemical moieties) should beattached to the protein with consideration of effects on functional orantigenic domains of the protein. There are a number of attachmentmethods available to those skilled in the art, such as, for example, themethod disclosed in EP 0 401 384 (coupling PEG to G-CSF), hereinincorporated by reference; see also Malik et al., Exp. Hematol.20:1028-1035 (1992), reporting pegylation of GM-CSF using tresylchloride. For example, polyethylene glycol may be covalently boundthrough amino acid residues via a reactive group, such as a free aminoor carboxyl group. Reactive groups are those to which an activatedpolyethylene glycol molecule may be bound. The amino acid residueshaving a free amino group may include lysine residues and the N-terminalamino acid residues; those having a free carboxyl group may includeaspartic acid residues glutamic acid residues and the C-terminal aminoacid residue. Sulfhydryl groups may also be used as a reactive group forattaching the polyethylene glycol molecules. Preferred for therapeuticpurposes is attachment at an amino group, such as attachment at theN-terminus or lysine group.

As suggested above, polyethylene glycol may be attached to proteins vialinkage to any of a number of amino acid residues. For example,polyethylene glycol can be linked to proteins via covalent bonds tolysine, histidine, aspartic acid, glutamic acid, or cysteine residues.One or more reaction chemistries may be employed to attach polyethyleneglycol to specific amino acid residues (e.g., lysine, histidine,aspartic acid, glutamic acid, or cysteine) of the protein or to morethan one type of amino acid residue (e.g., lysine, histidine, asparticacid, glutamic acid, cysteine and combinations thereof) of the protein.

One may specifically desire proteins chemically modified at theN-terminus. Using polyethylene glycol as an illustration of the presentcomposition, one may select from a variety of polyethylene glycolmolecules (by molecular weight, branching, etc.), the proportion ofpolyethylene glycol molecules to protein (polypeptide) molecules in thereaction mix, the type of pegylation reaction to be performed, and themethod of obtaining the selected N-terminally pegylated protein. Themethod of obtaining the N-terminally pegylated preparation (i.e.,separating this moiety from other monopegylated moieties if necessary)may be by purification of the N-terminally pegylated material from apopulation of pegylated protein molecules. Selective proteins chemicallymodified at the N-terminus modification may be accomplished by reductivealkylation, which exploits differential reactivity of different types ofprimary amino groups (lysine versus the N-terminal) available forderivatization in a particular protein. Under the appropriate reactionconditions, substantially selective derivatization of the protein at theN-terminus with a carbonyl group containing polymer is achieved.

As indicated above, pegylation of the proteins of the invention may beaccomplished by any number of means. For example, polyethylene glycolmay be attached to the protein either directly or by an interveninglinker. Linkerless systems for attaching polyethylene glycol to proteinsare described in Delgado et al., Crit. Rev. Thera. Drug Carrier Sys.9:249-304 (1992); Francis et al., Intern. J. of Hematol. 68:1-18 (1998);U.S. Pat. No. 4,002,531; U.S. Pat. No. 5,349,052; WO 95/06058; and WO98/32466, the disclosures of each of which are incorporated herein byreference.

One system for attaching polyethylene glycol directly to amino acidresidues of proteins without an intervening linker employs tresylatedMPEG, which is produced by the modification of monmethoxy polyethyleneglycol (MPEG) using tresylchloride (ClSO₂CH₂CF₃). Upon reaction ofprotein with tresylated MPEG, polyethylene glycol is directly attachedto amine groups of the protein. Thus, the invention includesprotein-polyethylene glycol conjugates produced by reacting proteins ofthe invention with a polyethylene glycol molecule having a2,2,2-trifluoreothane sulphonyl group.

Polyethylene glycol can also be attached to proteins using a number ofdifferent intervening linkers. For example, U.S. Pat. No. 5,612,460, theentire disclosure of which is incorporated herein by reference,discloses urethane linkers for connecting polyethylene glycol toproteins. Protein-polyethylene glycol conjugates wherein thepolyethylene glycol is attached to the protein by a linker can also beproduced by reaction of proteins with compounds such asMPEG-succinimidylsuccinate, MPEG activated with1,1′-carbonyldiimidazole, MPEG-2,4,5-trichloropenylcarbonate,MPEG-p-nitrophenolcarbonate, and various MPEG-succinate derivatives. Anumber of additional polyethylene glycol derivatives and reactionchemistries for attaching polyethylene glycol to proteins are describedin International Publication No. WO 98/32466, the entire disclosure ofwhich is incorporated herein by reference. Pegylated protein productsproduced using the reaction chemistries set out herein are includedwithin the scope of the invention.

The number of polyethylene glycol moieties attached to each protein ofthe invention (i.e., the degree of substitution) may also vary. Forexample, the pegylated proteins of the invention may be linked, onaverage, to 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 15, 17, 20, or morepolyethylene glycol molecules. Similarly, the average degree ofsubstitution within ranges such as 1-3, 2-4, 3-5, 4-6, 5-7, 6-8, 7-9,8-10, 9-11, 10-12, 11-13, 12-14, 13-15, 14-16, 15-17, 16-18, 17-19, or18-20 polyethylene glycol moieties per protein molecule. Methods fordetermining the degree of substitution are discussed, for example, inDelgado et al., Crit. Rev. Thera. Drug Carrier Sys. 9:249-304 (1992).

The polypeptides of the invention can be recovered and purified fromchemical synthesis and recombinant cell cultures by standard methodswhich include, but are not limited to, ammonium sulfate or ethanolprecipitation, acid extraction, anion or cation exchange chromatography,phosphocellulose chromatography, hydrophobic interaction chromatography,affinity chromatography, hydroxylapatite chromatography and lectinchromatography. Most preferably, high performance liquid chromatography(“HPLC”) is employed for purification. Well-known techniques forrefolding protein may be employed to regenerate active conformation whenthe polypeptide is denatured during isolation and/or purification.

The polypeptides of the invention may be in monomers or multimers (i.e.,dimers, trimers, tetramers and higher multimers). Accordingly, thepresent invention relates to monomers and multimers of the polypeptidesof the invention, their preparation, and compositions (preferably,Therapeutics) containing them. In specific embodiments, the polypeptidesof the invention are monomers, dimers, trimers or tetramers. Inadditional embodiments, the multimers of the invention are at leastdimers, at least trimers, or at least tetramers.

Multimers encompassed by the invention may be homomers or heteromers. Asused herein, the term homomer refers to a multimer containing onlypolypeptides corresponding to a protein of the invention (e.g., theamino acid sequence of SEQ ID NO:Y, an amino acid sequence encoded bySEQ ID NO:X or the complement of SEQ ID NO:X, the amino acid sequenceencoded by the portion of SEQ ID NO:X as defined in columns 8 and 9 ofTable 2, and/or an amino acid sequence encoded by cDNA contained in ATCCDeposit No: Z (including fragments, variants, splice variants, andfusion proteins, corresponding to these as described herein)). Thesehomomers may contain polypeptides having identical or different aminoacid sequences. In a specific embodiment, a homomer of the invention isa multimer containing only polypeptides having an identical amino acidsequence. In another specific embodiment, a homomer of the invention isa multimer containing polypeptides having different amino acidsequences. In specific embodiments, the multimer of the invention is ahomodimer (e.g., containing two polypeptides having identical ordifferent amino acid sequences) or a homotrimer (e.g., containing threepolypeptides having identical and/or different amino acid sequences). Inadditional embodiments, the homomeric multimer of the invention is atleast a homodimer, at least a homotrimer, or at least a homotetramer.

As used herein, the term heteromer refers to a multimer containing oneor more heterologous polypeptides (i.e., polypeptides of differentproteins) in addition to the polypeptides of the invention. In aspecific embodiment, the multimer of the invention is a heterodimer, aheterotrimer, or a heterotetramer. In additional embodiments, theheteromeric multimer of the invention is at least a heterodimer, atleast a heterotrimer, or at least a heterotetramer.

Multimers of the invention may be the result of hydrophobic,hydrophilic, ionic and/or covalent associations and/or may be indirectlylinked by, for example, liposome formation. Thus, in one embodiment,multimers of the invention, such as, for example, homodimers orhomotrimers, are formed when polypeptides of the invention contact oneanother in solution. In another embodiment, heteromultimers of theinvention, such as, for example, heterotrimers or heterotetramers, areformed when polypeptides of the invention contact antibodies to thepolypeptides of the invention (including antibodies to the heterologouspolypeptide sequence in a fusion protein of the invention) in solution.In other embodiments, multimers of the invention are formed by covalentassociations with and/or between the polypeptides of the invention. Suchcovalent associations may involve one or more amino acid residuescontained in the polypeptide sequence (e.g., that recited in SEQ IDNO:Y, encoded by the portion of SEQ ID NO:X as defined in columns 8 and9 of Table 2, and/or encoded by the cDNA contained in ATCC Deposit No:Z). In one instance, the covalent associations are cross-linking betweencysteine residues located within the polypeptide sequences that interactin the native (i.e., naturally occurring) polypeptide. In anotherinstance, the covalent associations are the consequence of chemical orrecombinant manipulation. Alternatively, such covalent associations mayinvolve one or more amino acid residues contained in the heterologouspolypeptide sequence in a fusion protein. In one example, covalentassociations are between the heterologous sequence contained in a fusionprotein of the invention (see, e.g., U.S. Pat. No. 5,478,925). In aspecific example, the covalent associations are between the heterologoussequence contained in a Fc fusion protein of the invention (as describedherein). In another specific example, covalent associations of fusionproteins of the invention are between heterologous polypeptide sequencefrom another protein that is capable of forming covalently associatedmultimers, such as for example, osteoprotegerin (see, e.g.,International Publication NO: WO 98/49305, the contents of which areherein incorporated by reference in its entirety). In anotherembodiment, two or more polypeptides of the invention are joined throughpeptide linkers. Examples include those peptide linkers described inU.S. Pat. No. 5,073,627 (hereby incorporated by reference). Proteinscomprising multiple polypeptides of the invention separated by peptidelinkers may be produced using conventional recombinant DNA technology.

Another method for preparing multimer polypeptides of the inventioninvolves use of polypeptides of the invention fused to a leucine zipperor isoleucine zipper polypeptide sequence. Leucine zipper and isoleucinezipper domains are polypeptides that promote multimerization of theproteins in which they are found. Leucine zippers were originallyidentified in several DNA-binding proteins (Landschulz et al., Science240:1759, (1988)), and have since been found in a variety of differentproteins. Among the known leucine zippers are naturally occurringpeptides and derivatives thereof that dimerize or trimerize. Examples ofleucine zipper domains suitable for producing soluble multimericproteins of the invention are those described in PCT application WO94/10308, hereby incorporated by reference. Recombinant fusion proteinscomprising a polypeptide of the invention fused to a polypeptidesequence that dimerizes or trimerizes in solution are expressed insuitable host cells, and the resulting soluble multimeric fusion proteinis recovered from the culture supernatant using techniques known in theart.

Trimeric polypeptides of the invention may offer the advantage ofenhanced biological activity. Preferred leucine zipper moieties andisoleucine moieties are those that preferentially form trimers. Oneexample is a leucine zipper derived from lung surfactant protein D(SPD), as described in Hoppe et al. (FEBS Letters 344:191, (1994)) andin U.S. patent application Ser. No. 08/446,922, hereby incorporated byreference. Other peptides derived from naturally occurring trimericproteins may be employed in preparing trimeric polypeptides of theinvention.

In another example, proteins of the invention are associated byinteractions between Flag® polypeptide sequence contained in fusionproteins of the invention containing Flag® polypeptide sequence. In afurther embodiment, proteins of the invention are associated byinteractions between heterologous polypeptide sequence contained inFlag® fusion proteins of the invention and anti-Flag® antibody.

The multimers of the invention may be generated using chemicaltechniques known in the art. For example, polypeptides desired to becontained in the multimers of the invention may be chemicallycross-linked using linker molecules and linker molecule lengthoptimization techniques known in the art (see, e.g., U.S. Pat. No.5,478,925, which is herein incorporated by reference in its entirety).Additionally, multimers of the invention may be generated usingtechniques known in the art to form one or more inter-moleculecross-links between the cysteine residues located within the sequence ofthe polypeptides desired to be contained in the multimer (see, e.g.,U.S. Pat. No. 5,478,925, which is herein incorporated by reference inits entirety). Further, polypeptides of the invention may be routinelymodified by the addition of cysteine or biotin to the C-terminus orN-terminus of the polypeptide and techniques known in the art may beapplied to generate multimers containing one or more of these modifiedpolypeptides (see, e.g., U.S. Pat. No. 5,478,925, which is hereinincorporated by reference in its entirety). Additionally, techniquesknown in the art may be applied to generate liposomes containing thepolypeptide components desired to be contained in the multimer of theinvention (see, e.g., U.S. Pat. No. 5,478,925, which is hereinincorporated by reference in its entirety).

Alternatively, multimers of the invention may be generated using geneticengineering techniques known in the art. In one embodiment, polypeptidescontained in multimers of the invention are produced recombinantly usingfusion protein technology described herein or otherwise known in the art(see, e.g., U.S. Pat. No. 5,478,925, which is herein incorporated byreference in its entirety). In a specific embodiment, polynucleotidescoding for a homodimer of the invention are generated by ligating apolynucleotide sequence encoding a polypeptide of the invention to asequence encoding a linker polypeptide and then further to a syntheticpolynucleotide encoding the translated product of the polypeptide in thereverse orientation from the original C-terminus to the N-terminus(lacking the leader sequence) (see, e.g., U.S. Pat. No. 5,478,925, whichis herein incorporated by reference in its entirety). In anotherembodiment, recombinant techniques described herein or otherwise knownin the art are applied to generate recombinant polypeptides of theinvention which contain a transmembrane domain (or hydrophobic or signalpeptide) and which can be incorporated by membrane reconstitutiontechniques into liposomes (see, e.g., U.S. Pat. No. 5,478,925, which isherein incorporated by reference in its entirety).

Antibodies

Further polypeptides of the invention relate to antibodies and T-cellantigen receptors (TCR) which immunospecifically bind a polypeptide,polypeptide fragment, or variant of the invention (e.g., a polypeptideor fragment or variant of the amino acid sequence of SEQ ID NO:Y or apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z, and/oran epitope, of the present invention) as determined by immunoassays wellknown in the art for assaying specific antibody-antigen binding.Antibodies of the invention include, but are not limited to, polyclonal,monoclonal, multispecific, human, humanized or chimeric antibodies,single chain antibodies, Fab fragments, F(ab′) fragments, fragmentsproduced by a Fab expression library, anti-idiotypic (anti-Id)antibodies (including, e.g., anti-Id antibodies to antibodies of theinvention), intracellularly-made antibodies (i.e., intrabodies), andepitope-binding fragments of any of the above. The term “antibody,” asused herein, refers to immunoglobulin molecules and immunologicallyactive portions of immunoglobulin molecules, i.e., molecules thatcontain an antigen binding site that immunospecifically binds anantigen. The immunoglobulin molecules of the invention can be of anytype (e.g., IgG, IgE, IgM, IgD, IgA and IgY), class (e.g., IgG1, IgG2,IgG3, IgG4, IgA1 and IgA2) or subclass of immunoglobulin molecule. Inpreferred embodiments, the immunoglobulin molecules of the invention areIgG1. In other preferred embodiments, the immunoglobulin molecules ofthe invention are IgG4.

Most preferably the antibodies are human antigen-binding antibodyfragments of the present invention and include, but are not limited to,Fab, Fab′ and F(ab′)2, Fd, single-chain Fvs (scFv), single-chainantibodies, disulfide-linked Fvs (sdFv) and fragments comprising eithera VL or VH domain. Antigen-binding antibody fragments, includingsingle-chain antibodies, may comprise the variable region(s) alone or incombination with the entirety or a portion of the following: hingeregion, CH1, CH2, and CH3 domains. Also included in the invention areantigen-binding fragments also comprising any combination of variableregion(s) with a hinge region, CH1, CH2, and CH3 domains. The antibodiesof the invention may be from any animal origin including birds andmammals. Preferably, the antibodies are human, murine (e.g., mouse andrat), donkey, ship rabbit, goat, guinea pig, camel, horse, or chicken.As used herein, “human” antibodies include antibodies having the aminoacid sequence of a human immunoglobulin and include antibodies isolatedfrom human immunoglobulin libraries or from animals transgenic for oneor more human immunoglobulin and that do not express endogenousimmunoglobulins, as described infra and, for example in, U.S. Pat. No.5,939,598 by Kucherlapati et al.

The antibodies of the present invention may be monospecific, bispecific,trispecific or of greater multispecificity. Multispecific antibodies maybe specific for different epitopes of a polypeptide of the presentinvention or may be specific for both a polypeptide of the presentinvention as well as for a heterologous epitope, such as a heterologouspolypeptide or solid support material. See, e.g., PCT publications WO93/17715; WO 92/08802; WO 91/00360; WO 92/05793; Tutt, et al., J.Immunol. 147:60-69 (1991); U.S. Pat. Nos. 4,474,893; 4,714,681;4,925,648; 5,573,920; 5,601,819; Kostelny et al., J. Immunol.148:1547-1553 (1992).

Antibodies of the present invention may be described or specified interms of the epitope(s) or portion(s) of a polypeptide of the presentinvention that they recognize or specifically bind. The epitope(s) orpolypeptide portion(s) may be specified as described herein, e.g., byN-terminal and C-terminal positions, or by size in contiguous amino acidresidues, or listed in the Tables and Figures. Preferred epitopes of theinvention include the predicted epitopes shown in Table 1B, as well aspolynucleotides that encode these epitopes. Antibodies that specificallybind any epitope or polypeptide of the present invention may also beexcluded. Therefore, the present invention includes antibodies thatspecifically bind polypeptides of the present invention, and allows forthe exclusion of the same.

Antibodies of the present invention may also be described or specifiedin terms of their cross-reactivity. Antibodies that do not bind anyother analog, ortholog, or homolog of a polypeptide of the presentinvention are included. Antibodies that bind polypeptides with at least95%, at least 90%, at least 85%, at least 80%, at least 75%, at least70%, at least 65%, at least 60%, at least 55%, and at least 50% identity(as calculated using methods known in the art and described herein) to apolypeptide of the present invention are also included in the presentinvention. In specific embodiments, antibodies of the present inventioncross-react with murine, rat and/or rabbit homologs of human proteinsand the corresponding epitopes thereof. Antibodies that do not bindpolypeptides with less than 95%, less than 90%, less than 85%, less than80%, less than 75%, less than 70%, less than 65%, less than 60%, lessthan 5%, and less than 50% identity (as calculated using methods knownin the art and described herein) to a polypeptide of the presentinvention are also included in the present invention. In a specificembodiment, the above-described cross-reactivity is with respect to anysingle specific antigenic or immunogenic polypeptide, or combination(s)of 2, 3, 4, 5, or more of the specific antigenic and/or immunogenicpolypeptides disclosed herein. Further included in the present inventionare antibodies that bind polypeptides encoded by polynucleotides thathybridize to a polynucleotide of the present invention under stringenthybridization conditions (as described herein). Antibodies of thepresent invention may also be described or specified in terms of theirbinding affinity to a polypeptide of the invention. Preferred bindingaffinities include those with a dissociation constant or Kd less than5×10⁻² M, 10⁻² M, 5×10⁻³ M, 10⁻³ M, 5×10⁻⁴M, 10⁻⁴ M, 5×10⁻⁵ M, 10⁻⁵ M,5×10⁻⁶ M, 10⁻⁶M, 5×10⁻⁷ M, 10⁷ M, 5×10⁻⁸ M, 10⁻⁸ M, 5×10⁻⁹ M, 10⁻⁹ M,5×10⁻¹⁰ M, 10⁻¹⁰ M, 5×10⁻¹¹ M, 10⁻¹¹ M, 5×10⁻¹² M, 10⁻¹² M, 5×10⁻¹³ M,10⁻¹³ M, 5×10⁻¹⁴ M, 10⁻¹⁴ M, 5×10⁻¹⁵ M, or 10⁻¹⁵ M.

The invention also provides antibodies that competitively inhibitbinding of an antibody to an epitope of the invention as determined byany method known in the art for determining competitive binding, forexample, the immunoassays described herein. In preferred embodiments,the antibody competitively inhibits binding to the epitope by at least95%, at least 90%, at least 85%, at least 80%, at least 75%, at least70%, at least 60%, or at least 50%.

Antibodies of the present invention may act as agonists or antagonistsof the polypeptides of the present invention. For example, the presentinvention includes antibodies that disrupt the receptor/ligandinteractions with the polypeptides of the invention either partially orfully. Preferably, antibodies of the present invention bind an antigenicepitope disclosed herein, or a portion thereof. The invention featuresboth receptor-specific antibodies and ligand-specific antibodies. Theinvention also features receptor-specific antibodies that do not preventligand binding but prevent receptor activation. Receptor activation(i.e., signaling) may be determined by techniques described herein orotherwise known in the art. For example, receptor activation can bedetermined by detecting the phosphorylation (e.g., tyrosine orserine/threonine) of the receptor or its substrate byimmunoprecipitation followed by western blot analysis (for example, asdescribed supra). In specific embodiments, antibodies are provided thatinhibit ligand activity or receptor activity by at least 95%, at least90%, at least 85%, at least 80%, at least 75%, at least 70%, at least60%, or at least 50% of the activity in absence of the antibody.

The invention also features receptor-specific antibodies which bothprevent ligand binding and receptor activation as well as antibodiesthat recognize the receptor-ligand complex, and, preferably, do notspecifically recognize the unbound receptor or the unbound ligand.Likewise, included in the invention are neutralizing antibodies thatbind the ligand and prevent binding of the ligand to the receptor, aswell as antibodies that bind the ligand, thereby preventing receptoractivation, but do not prevent the ligand from binding the receptor.Further included in the invention are antibodies that activate thereceptor. These antibodies may act as receptor agonists, i.e.,potentiate or activate either all or a subset of the biologicalactivities of the ligand-mediated receptor activation, for example, byinducing dimerization of the receptor. The antibodies may be specifiedas agonists, antagonists or inverse agonists for biological activitiescomprising the specific biological activities of the peptides of theinvention disclosed herein. The above antibody agonists can be madeusing methods known in the art. See, e.g., PCT publication WO 96/40281;U.S. Pat. No. 5,811,097; Deng et al., Blood 92(6):1981-1988 (1998); Chenet al., Cancer Res. 58(16):3668-3678 (1998); Harrop et al., J. Immunol.161(4):1786-1794 (1998); Zhu et al., Cancer Res. 58(15):3209-3214(1998); Yoon et al., J. Immunol. 160(7):3170-3179 (1998); Prat et al.,J. Cell. Sci. 111(Pt2):237-247 (1998); Pitard et al., J. Immunol.Methods 205(2):177-190 (1997); Liautard et al., Cytokine 9(4):233-241(1997); Carlson et al., J. Biol. Chem. 272(17):11295-11301 (1997);Taryman et al., Neuron 14(4):755-762 (1995); Muller et al., Structure6(9):1153-1167 (1998); Bartunek et al., Cytokine 8(1):14-20 (1996)(which are all incorporated by reference herein in their entireties).

Antibodies of the present invention may be used, for example, to purify,detect, and target the polypeptides of the present invention, includingboth in vitro and in vivo diagnostic and therapeutic methods. Forexample, the antibodies have utility in immunoassays for qualitativelyand quantitatively measuring levels of the polypeptides of the presentinvention in biological samples. See, e.g., Harlow et al., Antibodies: ALaboratory Manual, (Cold Spring Harbor Laboratory Press, 2nd ed. 1988);incorporated by reference herein in its entirety.

As discussed in more detail below, the antibodies of the presentinvention may be used either alone or in combination with othercompositions. The antibodies may further be recombinantly fused to aheterologous polypeptide at the N- or C-terminus or chemicallyconjugated (including covalent and non-covalent conjugations) topolypeptides or other compositions. For example, antibodies of thepresent invention may be recombinantly fused or conjugated to moleculesuseful as labels in detection assays and effector molecules such asheterologous polypeptides, drugs, radionuclides, or toxins. See, e.g.,PCT publications WO 92/08495; WO 91/14438; WO 89/12624; U.S. Pat. No.5,314,995; and EP 396,387; the disclosures of which are incorporatedherein by reference in their entireties.

The antibodies of the invention include derivatives that are modified,i.e, by the covalent attachment of any type of molecule to the antibodysuch that covalent attachment does not prevent the antibody fromgenerating an anti-idiotypic response. For example, but not by way oflimitation, the antibody derivatives include antibodies that have beenmodified, e.g., by glycosylation, acetylation, pegylation,phosphylation, amidation, derivatization by known protecting/blockinggroups, proteolytic cleavage, linkage to a cellular ligand or otherprotein, etc. Any of numerous chemical modifications may be carried outby known techniques, including, but not limited to specific chemicalcleavage, acetylation, formylation, metabolic synthesis of tunicamycin,etc. Additionally, the derivative may contain one or more non-classicalamino acids.

The antibodies of the present invention may be generated by any suitablemethod known in the art. Polyclonal antibodies to an antigen-of-interestcan be produced by various procedures well known in the art. Forexample, a polypeptide of the invention can be administered to varioushost animals including, but not limited to, rabbits, mice, rats, etc. toinduce the production of sera containing polyclonal antibodies specificfor the antigen. Various adjuvants may be used to increase theimmunological response, depending on the host species, and include butare not limited to, Freund's (complete and incomplete), mineral gelssuch as aluminum hydroxide, surface active substances such aslysolecithin, pluronic polyols, polyanions, peptides, oil emulsions,keyhole limpet hemocyanins, dinitrophenol, and potentially useful humanadjuvants such as BCG (bacille Calmette-Guerin) and corynebacteriumparvum. Such adjuvants are also well known in the art.

Monoclonal antibodies can be prepared using a wide variety of techniquesknown in the art including the use of hybridoma, recombinant, and phagedisplay technologies, or a combination thereof. For example, monoclonalantibodies can be produced using hybridoma techniques including thoseknown in the art and taught, for example, in Harlow et al., Antibodies:A Laboratory Manual, (Cold Spring Harbor Laboratory Press, 2nd ed.1988); Hammerling, et al., in: Monoclonal Antibodies and T-CellHybridomas 563-681 (Elsevier, N.Y., 1981) (said references incorporatedby reference in their entireties). The term “monoclonal antibody” asused herein is not limited to antibodies produced through hybridomatechnology. The term “monoclonal antibody” refers to an antibody that isderived from a single clone, including any eukaryotic, prokaryotic, orphage clone, and not the method by which it is produced.

Methods for producing and screening for specific antibodies usinghybridoma technology are routine and well known in the art and arediscussed in detail in the Examples. In a non-limiting example, mice canbe immunized with a polypeptide of the invention or a cell expressingsuch peptide. Once an immune response is detected, e.g., antibodiesspecific for the antigen are detected in the mouse serum, the mousespleen is harvested and splenocytes isolated. The splenocytes are thenfused by well-known techniques to any suitable myeloma cells, forexample cells from cell line SP20 available from the ATCC. Hybridomasare selected and cloned by limited dilution. The hybridoma clones arethen assayed by methods known in the art for cells that secreteantibodies capable of binding a polypeptide of the invention. Ascitesfluid, which generally contains high levels of antibodies, can begenerated by immunizing mice with positive hybridoma clones.

Accordingly, the present invention provides methods of generatingmonoclonal antibodies as well as antibodies produced by the methodcomprising culturing a hybridoma cell secreting an antibody of theinvention wherein, preferably, the hybridoma is generated by fusingsplenocytes isolated from a mouse immunized with an antigen of theinvention with myeloma cells and then screening the hybridomas resultingfrom the fusion for hybridoma clones that secrete an antibody able tobind a polypeptide of the invention.

Another well-known method for producing both polyclonal and monoclonalhuman B cell lines is transformation using Epstein Barr Virus (EBV).Protocols for generating EBV-transformed B cell lines are commonly knownin the art, such as, for example, the protocol outlined in Chapter 7.22of Current Protocols in Immunology, Coligan et al., Eds., 1994, JohnWiley & Sons, NY, which is hereby incorporated in its entirety byreference. The source of B cells for transformation is commonly humanperipheral blood, but B cells for transformation may also be derivedfrom other sources including, but not limited to, lymph nodes, tonsil,spleen, tumor tissue, and infected tissues. Tissues are generally madeinto single cell suspensions prior to EBV transformation. Additionally,steps may be taken to either physically remove or inactivate T cells(e.g., by treatment with cyclosporin A) in B cell-containing samples,because T cells from individuals seropositive for anti-EBV antibodiescan suppress B cell immortalization by EBV.

In general, the sample containing human B cells is innoculated with EBV,and cultured for 3-4 weeks. A typical source of EBV is the culturesupernatant of the B95-8 cell line (ATCC #VR-1492). Physical signs ofEBV transformation can generally be seen towards the end of the 3-4 weekculture period. By phase-contrast microscopy, transformed cells mayappear large, clear, hairy and tend to aggregate in tight clusters ofcells. Initially, EBV lines are generally polyclonal. However, overprolonged periods of cell cultures, EBV lines may become monoclonal orpolyclonal as a result of the selective outgrowth of particular B cellclones. Alternatively, polyclonal EBV transformed lines may be subcloned(e.g., by limiting dilution culture) or fused with a suitable fusionpartner and plated at limiting dilution to obtain monoclonal B celllines. Suitable fusion partners for EBV transformed cell lines includemouse myeloma cell lines (e.g., SP2/0, X63-Ag8.653), heteromyeloma celllines (human×mouse; e.g, SPAM-8, SBC-H20, and CB-F7), and human celllines (e.g., GM 1500, SKO-007, RPMI 8226, and KR-4). Thus, the presentinvention also provides a method of generating polyclonal or monoclonalhuman antibodies against polypeptides of the invention or fragmentsthereof, comprising EBV-transformation of human B cells.

Antibody fragments that recognize specific epitopes may be generated byknown techniques. For example, Fab and F(ab′)2 fragments of theinvention may be produced by proteolytic cleavage of immunoglobulinmolecules, using enzymes such as papain (to produce Fab fragments) orpepsin (to produce F(ab′)2 fragments). F(ab′)2 fragments contain thevariable region, the light chain constant region and the CH1 domain ofthe heavy chain.

For example, the antibodies of the present invention can also begenerated using various phage display methods known in the art. In phagedisplay methods, functional antibody domains are displayed on thesurface of phage particles that carry the polynucleotide sequencesencoding them. In a particular embodiment, such phage can be utilized todisplay antigen-binding domains expressed from a repertoire orcombinatorial antibody library (e.g., human or murine). Phage expressingan antigen binding domain that binds the antigen of interest can beselected or identified with antigen, e.g., using labeled antigen orantigen bound or captured to a solid surface or bead. Phage used inthese methods are typically filamentous phage including fd and M13binding domains expressed from phage with Fab, Fv or disulfidestabilized Fv antibody domains recombinantly fused to either the phagegene III or gene VIII protein. Examples of phage display methods thatcan be used to make the antibodies of the present invention includethose disclosed in Brinkman et al., J. Immunol. Methods 182:41-50(1995); Ames et al., J. Immunol. Methods 184:177-186 (1995);Kettleborough et al., Eur. J. Immunol. 24:952-958 (1994); Persic et al.,Gene 187 9-18 (1997); Burton et al., Advances in Immunology 57:191-280(1994); PCT application No. PCT/GB91/01134; PCT publications WO90/02809; WO 91/10737; WO 92/01047; WO 92/18619; WO 93/11236; WO95/15982; WO 95/20401; and U.S. Pat. Nos. 5,698,426; 5,223,409;5,403,484; 5,580,717; 5,427,908; 5,750,753; 5,821,047; 5,571,698;5,427,908; 5,516,637; 5,780,225; 5,658,727; 5,733,743 and 5,969,108;each of which is incorporated herein by reference in its entirety.

As described in the above references, after phage selection, theantibody coding regions from the phage can be isolated and used togenerate whole antibodies, including human antibodies, or any otherdesired antigen binding fragment, and expressed in any desired host,including mammalian cells, insect cells, plant cells, yeast, andbacteria, e.g., as described in detail below. For example, techniques torecombinantly produce Fab, Fab′ and F(ab′)2 fragments can also beemployed using methods known in the art such as those disclosed in PCTpublication WO 92/22324; Mullinax et al., BioTechniques 12(6):864-869(1992); and Sawai et al., AJRI 34:26-34 (1995); and Better et al.,Science 240:1041-1043 (1988) (said references incorporated by referencein their entireties).

Examples of techniques which can be used to produce single-chain Fvs andantibodies include those described in U.S. Pat. Nos. 4,946,778 and5,258,498; Huston et al., Methods in Enzymology 203:46-88 (1991); Shu etal., PNAS 90:7995-7999 (1993); and Skerra et al., Science 240:1038-1040(1988). For some uses, including in vivo use of antibodies in humans andin vitro detection assays, it may be preferable to use chimeric,humanized, or human antibodies. A chimeric antibody is a molecule inwhich different portions of the antibody are derived from differentanimal species, such as antibodies having a variable region derived froma murine monoclonal antibody and a human immunoglobulin constant region.Methods for producing chimeric antibodies are known in the art. Seee.g., Morrison, Science 229:1202 (1985); Oi et al., BioTechniques 4:214(1986); Gillies et al., (1989) J. Immunol. Methods 125:191-202; U.S.Pat. Nos. 5,807,715; 4,816,567; and 4,816397, which are incorporatedherein by reference in their entirety. Humanized antibodies are antibodymolecules from non-human species antibody that binds the desired antigenhaving one or more complementarity determining regions (CDRs) from thenon-human species and framework regions from a human immunoglobulinmolecule. Often, framework residues in the human framework regions willbe substituted with the corresponding residue from the CDR donorantibody to alter, preferably improve, antigen binding. These frameworksubstitutions are identified by methods well known in the art, e.g., bymodeling of the interactions of the CDR and framework residues toidentify framework residues important for antigen binding and sequencecomparison to identify unusual framework residues at particularpositions. (See, e.g., Queen et al., U.S. Pat. No. 5,585,089; Riechmannet al., Nature 332:323 (1988), which are incorporated herein byreference in their entireties.) Antibodies can be humanized using avariety of techniques known in the art including, for example,CDR-grafting (EP 239,400; PCT publication WO 91/09967; U.S. Pat. Nos.5,225,539; 5,530,101; and 5,585,089), veneering or resurfacing (EP592,106; EP 519,596; Padlan, Molecular Immunology 28(4/5):489-498(1991); Studnicka et al., Protein Engineering 7(6):805-814 (1994);Roguska. et al., PNAS 91:969-973 (1994)), and chain shuffling (U.S. Pat.No. 5,565,332).

Completely human antibodies are particularly desirable for therapeutictreatment of human patients. Human antibodies can be made by a varietyof methods known in the art including phage display methods describedabove using antibody libraries derived from human immunoglobulinsequences. See also, U.S. Pat. Nos. 4,444,887 and 4,716,111; and PCTpublications WO 98/46645, WO 98/50433, WO 98/24893, WO 98/16654, WO96/34096, WO 96/33735, and WO 91/10741; each of which is incorporatedherein by reference in its entirety.

Human antibodies can also be produced using transgenic mice which areincapable of expressing functional endogenous immunoglobulins, but whichcan express human immunoglobulin genes. For example, the human heavy andlight chain immunoglobulin gene complexes may be introduced randomly orby homologous recombination into mouse embryonic stem cells.Alternatively, the human variable region, constant region, and diversityregion may be introduced into mouse embryonic stem cells in addition tothe human heavy and light chain genes. The mouse heavy and light chainimmunoglobulin genes may be rendered non-functional separately orsimultaneously with the introduction of human immunoglobulin loci byhomologous recombination. In particular, homozygous deletion of the JHregion prevents endogenous antibody production. The modified embryonicstem cells are expanded and microinjected into blastocysts to producechimeric mice. The chimeric mice are then bred to produce homozygousoffspring that express human antibodies. The transgenic mice areimmunized in the normal fashion with a selected antigen, e.g., all or aportion of a polypeptide of the invention. Monoclonal antibodiesdirected against the antigen can be obtained from the immunized,transgenic mice using conventional hybridoma technology. The humanimmunoglobulin transgenes harbored by the transgenic mice rearrangeduring B cell differentiation, and subsequently undergo class switchingand somatic mutation. Thus, using such a technique, it is possible toproduce therapeutically useful IgG, IgA, IgM and IgE antibodies. For anoverview of this technology for producing human antibodies, see Lonbergand Huszar, Int. Rev. Immunol. 13:65-93 (1995). For a detaileddiscussion of this technology for producing human antibodies and humanmonoclonal antibodies and protocols for producing such antibodies, see,e.g., PCT publications WO 98/24893; WO 92/01047; WO 96/34096; WO96/33735; European Patent No. 0 598 877; U.S. Pat. Nos. 5,413,923;5,625,126; 5,633,425; 5,569,825; 5,661,016; 5,545,806; 5,814,318;5,885,793; 5,916,771; 5,939,598; 6,075,181; and 6,114,598, which areincorporated by reference herein in their entirety. In addition,companies such as Abgenix, Inc. (Freemont, Calif.) and Genpharm (SanJose, Calif.) can be engaged to provide human antibodies directedagainst a selected antigen using technology similar to that describedabove.

Completely human antibodies that recognize a selected epitope can begenerated using a technique referred to as “guided selection.” In thisapproach a selected non-human monoclonal antibody, e.g., a mouseantibody, is used to guide the selection of a completely human antibodyrecognizing the same epitope. (Jespers et al., Bio/technology 12:899-903(1988)).

Further, antibodies to the polypeptides of the invention can, in turn,be utilized to generate anti-idiotype antibodies that “mimic”polypeptides of the invention using techniques well known to thoseskilled in the art. (See, e.g., Greenspan & Bona, FASEB J. 7(5):437-444;(1989) and Nissinoff, J. Immunol. 147(8):2429-2438 (1991)). For example,antibodies which bind to and competitively inhibit polypeptidemultimerization and/or binding of a polypeptide of the invention to aligand can be used to generate anti-idiotypes that “mimic” thepolypeptide multimerization and/or binding domain and, as a consequence,bind to and neutralize polypeptide and/or its ligand. Such neutralizinganti-idiotypes or Fab fragments of such anti-idiotypes can be used intherapeutic regimens to neutralize polypeptide ligand(s)/receptor(s).For example, such anti-idiotypic antibodies can be used to bind apolypeptide of the invention and/or to bind its ligand(s)/receptor(s),and thereby block its biological activity. Alternatively, antibodieswhich bind to and enhance polypeptide multimerization and/or binding,and/or receptor/ligand multimerization, binding and/or signaling can beused to generate anti-idiotypes that function as agonists of apolypeptide of the invention and/or its ligand/receptor. Such agonisticanti-idiotypes or Fab fragments of such anti-idiotypes can be used intherapeutic regimens as agonists of the polypeptides of the invention orits ligand(s)/receptor(s). For example, such anti-idiotypic antibodiescan be used to bind a polypeptide of the invention and/or to bind itsligand(s)/receptor(s), and thereby promote or enhance its biologicalactivity.

Intrabodies of the invention can be produced using methods known in theart, such as those disclosed and reviewed in Chen et al., Hum. GeneTher. 5:595-601 (1994); Marasco, W. A., Gene Ther. 4:11-15 (1997);Rondon and Marasco, Annu. Rev. Microbiol. 51:257-283 (1997); Proba etal., J. Mol. Biol. 275:245-253 (1998); Cohen et al., Oncogene17:2445-2456 (1998); Ohage and Steipe, J. Mol. Biol. 291:1119-1128(1999); Ohage et al., J. Mol. Biol. 291:1129-1134 (1999); Wirtz andSteipe, Protein Sci. 8:2245-2250 (1999); Zhu et al., J. Immunol. Methods231:207-222 (1999); and references cited therein.

Polynucleotides Encoding Antibodies

The invention further provides polynucleotides comprising a nucleotidesequence encoding an antibody of the invention and fragments thereof.The invention also encompasses polynucleotides that hybridize understringent or alternatively, under lower stringency hybridizationconditions, e.g., as defined supra, to polynucleotides that encode anantibody, preferably, that specifically binds to a polypeptide of theinvention, preferably, an antibody that binds to a polypeptide havingthe amino acid sequence of SEQ ID NO:Y, to a polypeptide encoded by aportion of SEQ ID NO:X as defined in columns 8 and 9 of Table 2, and/orto a polypeptide encoded by the cDNA contained in ATCC Deposit No: Z.

The polynucleotides may be obtained, and the nucleotide sequence of thepolynucleotides determined, by any method known in the art. For example,if the nucleotide sequence of the antibody is known, a polynucleotideencoding the antibody may be assembled from chemically synthesizedoligonucleotides (e.g., as described in Kutmeier et al., BioTechniques17:242 (1994)), which, briefly, involves the synthesis of overlappingoligonucleotides containing portions of the sequence encoding theantibody, annealing and ligating of those oligonucleotides, and thenamplification of the ligated oligonucleotides by PCR.

Alternatively, a polynucleotide encoding an antibody may be generatedfrom nucleic acid from a suitable source. If a clone containing anucleic acid encoding a particular antibody is not available, but thesequence of the antibody molecule is known, a nucleic acid encoding theimmunoglobulin may be chemically synthesized or obtained from a suitablesource (e.g., an antibody cDNA library, or a cDNA library generatedfrom, or nucleic acid, preferably poly A+ RNA, isolated from, any tissueor cells expressing the antibody, such as hybridoma cells selected toexpress an antibody of the invention) by PCR amplification usingsynthetic primers hybridizable to the 3′ and 5′ ends of the sequence orby cloning using an oligonucleotide probe specific for the particulargene sequence to identify, e.g., a cDNA clone from a cDNA library thatencodes the antibody. Amplified nucleic acids generated by PCR may thenbe cloned into replicable cloning vectors using any method well known inthe art.

Once the nucleotide sequence and corresponding amino acid sequence ofthe antibody is determined, the nucleotide sequence of the antibody maybe manipulated using methods well known in the art for the manipulationof nucleotide sequences, e.g., recombinant DNA techniques, site directedmutagenesis, PCR, etc. (see, for example, the techniques described inSambrook et al., 1990, Molecular Cloning, A Laboratory Manual, 2d Ed.,Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y. and Ausubel etal., eds., 1998, Current Protocols in Molecular Biology, John Wiley &Sons, NY, which are both incorporated by reference herein in theirentireties), to generate antibodies having a different amino acidsequence, for example to create amino acid substitutions, deletions,and/or insertions.

In a specific embodiment, the amino acid sequence of the heavy and/orlight chain variable domains may be inspected to identify the sequencesof the complementarity determining regions (CDRs) by methods that arewell know in the art, e.g., by comparison to known amino acid sequencesof other heavy and light chain variable regions to determine the regionsof sequence hypervariability. Using routine recombinant DNA techniques,one or more of the CDRs may be inserted within framework regions, e.g.,into human framework regions to humanize a non-human antibody, asdescribed supra. The framework regions may be naturally occurring orconsensus framework regions, and preferably human framework regions(see, e.g., Chothia et al., J. Mol. Biol. 278: 457-479 (1998) for alisting of human framework regions). Preferably, the polynucleotidegenerated by the combination of the framework regions and CDRs encodesan antibody that specifically binds a polypeptide of the invention.Preferably, as discussed supra, one or more amino acid substitutions maybe made within the framework regions, and, preferably, the amino acidsubstitutions improve binding of the antibody to its antigen.Additionally, such methods may be used to make amino acid substitutionsor deletions of one or more variable region cysteine residuesparticipating in an intrachain disulfide bond to generate antibodymolecules lacking one or more intrachain disulfide bonds. Otheralterations to the polynucleotide are encompassed by the presentinvention and within the skill of the art.

In addition, techniques developed for the production of “chimericantibodies” (Morrison et al., Proc. Natl. Acad. Sci. 81:851-855 (1984);Neuberger et al., Nature 312:604-608 (1984); Takeda et al., Nature314:452-454 (1985)) by splicing genes from a mouse antibody molecule ofappropriate antigen specificity together with genes from a humanantibody molecule of appropriate biological activity can be used. Asdescribed supra, a chimeric antibody is a molecule in which differentportions are derived from different animal species, such as those havinga variable region derived from a murine mAb and a human immunoglobulinconstant region, e.g., humanized antibodies.

Alternatively, techniques described for the production of single chainantibodies (U.S. Pat. No. 4,946,778; Bird, Science 242:423-42 (1988);Huston et al., Proc. Natl. Acad. Sci. USA 85:5879-5883 (1988); and Wardet al., Nature 334:544-54 (1989)) can be adapted to produce single chainantibodies. Single chain antibodies are formed by linking the heavy andlight chain fragments of the Fv region via an amino acid bridge,resulting in a single chain polypeptide. Techniques for the assembly offunctional Fv fragments in E. coli may also be used (Skerra et al.,Science 242:1038-1041 (1988)).

Methods of Producing Antibodies

The antibodies of the invention can be produced by any method known inthe art for the synthesis of antibodies, in particular, by chemicalsynthesis or preferably, by recombinant expression techniques. Methodsof producing antibodies include, but are not limited to, hybridomatechnology, EBV transformation, and other methods discussed herein aswell as through the use recombinant DNA technology, as discussed below.

Recombinant expression of an antibody of the invention, or fragment,derivative or analog thereof, (e.g., a heavy or light chain of anantibody of the invention or a single chain antibody of the invention),requires construction of an expression vector containing apolynucleotide that encodes the antibody. Once a polynucleotide encodingan antibody molecule or a heavy or light chain of an antibody, orportion thereof (preferably containing the heavy or light chain variabledomain), of the invention has been obtained, the vector for theproduction of the antibody molecule may be produced by recombinant DNAtechnology using techniques well known in the art. Thus, methods forpreparing a protein by expressing a polynucleotide containing anantibody encoding nucleotide sequence are described herein. Methods thatare well known to those skilled in the art can be used to constructexpression vectors containing antibody coding sequences and appropriatetranscriptional and translational control signals. These methodsinclude, for example, in vitro recombinant DNA techniques, synthetictechniques, and in vivo genetic recombination. The invention, thus,provides replicable vectors comprising a nucleotide sequence encoding anantibody molecule of the invention, or a heavy or light chain thereof,or a heavy or light chain variable domain, operably linked to apromoter. Such vectors may include the nucleotide sequence encoding theconstant region of the antibody molecule (see, e.g., PCT Publication WO86/05807; PCT Publication WO 89/01036; and U.S. Pat. No. 5,122,464) andthe variable domain of the antibody may be cloned into such a vector forexpression of the entire heavy or light chain.

The expression vector is transferred to a host cell by conventionaltechniques and the transfected cells are then cultured by conventionaltechniques to produce an antibody of the invention. Thus, the inventionincludes host cells containing a polynucleotide encoding an antibody ofthe invention, or a heavy or light chain thereof, or a single chainantibody of the invention, operably linked to a heterologous promoter.In preferred embodiments for the expression of double-chainedantibodies, vectors encoding both the heavy and light chains may beco-expressed in the host cell for expression of the entireimmunoglobulin molecule, as detailed below.

A variety of host-expression vector systems may be utilized to expressthe antibody molecules of the invention. Such host-expression systemsrepresent vehicles by which the coding sequences of interest may beproduced and subsequently purified, but also represent cells which may,when transformed or transfected with the appropriate nucleotide codingsequences, express an antibody molecule of the invention in situ. Theseinclude but are not limited to microorganisms such as bacteria (e.g., E.coli, B. subtilis) transformed with recombinant bacteriophage DNA,plasmid DNA or cosmid DNA expression vectors containing antibody codingsequences; yeast (e.g., Saccharomyces, Pichia) transformed withrecombinant yeast expression vectors containing antibody codingsequences; insect cell systems infected with recombinant virusexpression vectors (e.g., baculovirus) containing antibody codingsequences; plant cell systems infected with recombinant virus expressionvectors (e.g., cauliflower mosaic virus, CaMV; tobacco mosaic virus,TMV) or transformed with recombinant plasmid expression vectors (e.g.,Ti plasmid) containing antibody coding sequences; or mammalian cellsystems (e.g., COS, CHO, BHK, 293, 3T3 cells) harboring recombinantexpression constructs containing promoters derived from the genome ofmammalian cells (e.g., metallothionein promoter) or from mammalianviruses (e.g., the adenovirus late promoter; the vaccinia virus 7.5Kpromoter). Preferably, bacterial cells such as Escherichia coli, andmore preferably, eukaryotic cells, especially for the expression ofwhole recombinant antibody molecule, are used for the expression of arecombinant antibody molecule. For example, mammalian cells such asChinese hamster ovary cells (CHO), in conjunction with a vector such asthe major intermediate early gene promoter element from humancytomegalovirus is an effective expression system for antibodies(Foecking et al., Gene 45:101 (1986); Cockett et al., Bio/Technology 8:2(1990)).

In bacterial systems, a number of expression vectors may beadvantageously selected depending upon the use intended for the antibodymolecule being expressed. For example, when a large quantity of such aprotein is to be produced, for the generation of pharmaceuticalcompositions of an antibody molecule, vectors which direct theexpression of high levels of fusion protein products that are readilypurified may be desirable. Such vectors include, but are not limited, tothe E. coli expression vector pUR278 (Ruther et al., EMBO J. 2:1791(1983)), in which the antibody coding sequence may be ligatedindividually into the vector in frame with the lac Z coding region sothat a fusion protein is produced; pIN vectors (Inouye & Inouye, NucleicAcids Res. 13:3101-3109 (1985); Van Heeke & Schuster, J. Biol. Chem.24:5503-5509 (1989)); and the like. pGEX vectors may also be used toexpress foreign polypeptides as fusion proteins with glutathioneS-transferase (GST). In general, such fusion proteins are soluble andcan easily be purified from lysed cells by adsorption and binding tomatrix glutathione-agarose beads followed by elution in the presence offree glutathione. The pGEX vectors are designed to include thrombin orfactor Xa protease cleavage sites so that the cloned target gene productcan be released from the GST moiety.

In an insect system, Autographa californica nuclear polyhedrosis virus(AcNPV) is used as a vector to express foreign genes. The virus grows inSpodoptera frugiperda cells. The antibody coding sequence may be clonedindividually into non-essential regions (for example the polyhedringene) of the virus and placed under control of an AcNPV promoter (forexample the polyhedrin promoter).

In mammalian host cells, a number of viral-based expression systems maybe utilized. In cases where an adenovirus is used as an expressionvector, the antibody coding sequence of interest may be ligated to anadenovirus transcription/translation control complex, e.g., the latepromoter and tripartite leader sequence. This chimeric gene may then beinserted in the adenovirus genome by in vitro or in vivo recombination.Insertion in a non-essential region of the viral genome (e.g., region E1or E3) will result in a recombinant virus that is viable and capable ofexpressing the antibody molecule in infected hosts. (e.g., see Logan &Shenk, Proc. Natl. Acad. Sci. USA 81:355-359 (1984)). Specificinitiation signals may also be required for efficient translation ofinserted antibody coding sequences. These signals include the ATGinitiation codon and adjacent sequences. Furthermore, the initiationcodon must be in phase with the reading frame of the desired codingsequence to ensure translation of the entire insert. These exogenoustranslational control signals and initiation codons can be of a varietyof origins, both natural and synthetic. The efficiency of expression maybe enhanced by the inclusion of appropriate transcription enhancerelements, transcription terminators, etc. (see Bittner et al., Methodsin Enzymol. 153:51-544 (1987)).

In addition, a host cell strain may be chosen which modulates theexpression of the inserted sequences, or modifies and processes the geneproduct in the specific fashion desired. Such modifications (e.g.,glycosylation) and processing (e.g., cleavage) of protein products maybe important for the function of the protein. Different host cells havecharacteristic and specific mechanisms for the post-translationalprocessing and modification of proteins and gene products. Appropriatecell lines or host systems can be chosen to ensure the correctmodification and processing of the foreign protein expressed. To thisend, eukaryotic host cells which possess the cellular machinery forproper processing of the primary transcript, glycosylation, andphosphorylation of the gene product may be used. Such mammalian hostcells include but are not limited to CHO, VERY, BHK, Hela, COS, MDCK,293, 3T3, WI38, and in particular, breast cancer cell lines such as, forexample, BT483, Hs578T, HTB2, BT20 and T47D, and normal mammary glandcell line such as, for example, CRL7030 and Hs578Bst.

For long-term, high-yield production of recombinant proteins, stableexpression is preferred. For example, cell lines which stably expressthe antibody molecule may be engineered. Rather than using expressionvectors which contain viral origins of replication, host cells can betransformed with DNA controlled by appropriate expression controlelements (e.g., promoter, enhancer, sequences, transcriptionterminators, polyadenylation sites, etc.), and a selectable marker.Following the introduction of the foreign DNA, engineered cells may beallowed to grow for 1-2 days in an enriched media, and then are switchedto a selective media. The selectable marker in the recombinant plasmidconfers resistance to the selection and allows cells to stably integratethe plasmid into their chromosomes and grow to form foci which in turncan be cloned and expanded into cell lines. This method mayadvantageously be used to engineer cell lines which express the antibodymolecule. Such engineered cell lines may be particularly useful inscreening and evaluation of compounds that interact directly orindirectly with the antibody molecule.

A number of selection systems may be used, including but not limited tothe herpes simplex virus thymidine kinase (Wigler et al., Cell 11:223(1977)), hypoxanthine-guanine phosphoribosyltransferase (Szybalska &Szybalski, Proc. Natl. Acad. Sci. USA 48:202 (1992)), and adeninephosphoribosyltransferase (Lowy et al., Cell 22:817 (1980)) genes can beemployed in tk−, hgprt− or aprt− cells, respectively. Also,antimetabolite resistance can be used as the basis of selection for thefollowing genes: dhfr, which confers resistance to methotrexate (Wigleret al., Natl. Acad. Sci. USA 77:357 (1980); O'Hare et al., Proc. Natl.Acad. Sci. USA 78:1527 (1981)); gpt, which confers resistance tomycophenolic acid (Mulligan & Berg, Proc. Natl. Acad. Sci. USA 78:2072(1981)); neo, which confers resistance to the aminoglycoside G-418Clinical Pharmacy 12:488-505; Wu and Wu, Biotherapy 3:87-95 (1991);Tolstoshev, Ann. Rev. Pharmacol. Toxicol. 32:573-596 (1993); Mulligan,Science 260:926-932 (1993); and Morgan and Anderson, Ann. Rev. Biochem.62:191-217 (1993); May, 1993, TIB TECH 11(5):155-215 (1993)); and hygro,which confers resistance to hygromycin (Santerre et al., Gene 30:147(1984)). Methods commonly known in the art of recombinant DNA technologymay be routinely applied to select the desired recombinant clone, andsuch methods are described, for example, in Ausubel et al. (eds.),Current Protocols in Molecular Biology, John Wiley & Sons, NY (1993);Kriegler, Gene Transfer and Expression, A Laboratory Manual, StocktonPress, NY (1990); and in Chapters 12 and 13, Dracopoli et al. (eds),Current Protocols in Human Genetics, John Wiley & Sons, NY (1994);Colberre-Garapin et al., J. Mol. Biol. 150:1 (1981), which areincorporated by reference herein in their entireties.

The expression levels of an antibody molecule can be increased by vectoramplification (for a review, see Bebbington and Hentschel, The use ofvectors based on gene amplification for the expression of cloned genesin mammalian cells in DNA cloning, Vol. 3. (Academic Press, New York,1987)). When a marker in the vector system expressing antibody isamplifiable, increase in the level of inhibitor present in culture ofhost cell will increase the number of copies of the marker gene. Sincethe amplified region is associated with the antibody gene, production ofthe antibody will also increase (Crouse et al., Mol. Cell. Biol. 3:257(1983)).

Vectors which use glutamine synthase (GS) or DHFR as the selectablemarkers can be amplified in the presence of the drugs methioninesulphoximine or methotrexate, respectively. An advantage of glutaminesynthase based vectors are the availabilty of cell lines (e.g., themurine myeloma cell line, NS0) which are glutamine synthase negative.Glutamine synthase expression systems can also function in glutaminesynthase expressing cells (e.g. Chinese Hamster Ovary (CHO) cells) byproviding additional inhibitor to prevent the functioning of theendogenous gene. A glutamine synthase expression system and componentsthereof are detailed in PCT publications: WO87/04462; WO86/05807;WO89/01036; WO89/10404; and WO91/06657 which are incorporated in theirentireties by reference herein. Additionally, glutamine synthaseexpression vectors that may be used according to the present inventionare commercially available from suplliers, including, for example LonzaBiologics, Inc. (Portsmouth, N.H.). Expression and production ofmonoclonal antibodies using a GS expression system in murine myelomacells is described in Bebbington et al., Bio/technology 10:169 (1992)and in Biblia and Robinson Biotechnol. Prog. 11:1 (1995) which areincorporated in their entirities by reference herein.

The host cell may be co-transfected with two expression vectors of theinvention, the first vector encoding a heavy chain derived polypeptideand the second vector encoding a light chain derived polypeptide. Thetwo vectors may contain identical selectable markers which enable equalexpression of heavy and light chain polypeptides. Alternatively, asingle vector may be used which encodes, and is capable of expressing,both heavy and light chain polypeptides. In such situations, the lightchain should be placed before the heavy chain to avoid an excess oftoxic free heavy chain (Proudfoot, Nature 322:52 (1986); Kohler, Proc.Natl. Acad. Sci. USA 77:2197 (1980)). The coding sequences for the heavyand light chains may comprise cDNA or genomic DNA.

Once an antibody molecule of the invention has been produced by ananimal, chemically synthesized, or recombinantly expressed, it may bepurified by any method known in the art for purification of animmunoglobulin molecule, for example, by chromatography (e.g., ionexchange, affinity, particularly by affinity for the specific antigenafter Protein A, and sizing column chromatography), centrifugation,differential solubility, or by any other standard technique for thepurification of proteins. In addition, the antibodies of the presentinvention or fragments thereof can be fused to heterologous polypeptidesequences described herein or otherwise known in the art, to facilitatepurification.

The present invention encompasses antibodies recombinantly fused orchemically conjugated (including both covalently and non-covalentlyconjugations) to a polypeptide (or portion thereof, preferably at least10, 20, 30, 40, 50, 60, 70, 80, 90 or 100 amino acids of thepolypeptide) of the present invention to generate fusion proteins. Thefusion does not necessarily need to be direct, but may occur throughlinker sequences. The antibodies may be specific for antigens other thanpolypeptides (or portion thereof, preferably at least 10, 20, 30, 40,50, 60, 70, 80, 90 or 100 amino acids of the polypeptide) of the presentinvention. For example, antibodies may be used to target thepolypeptides of the present invention to particular cell types, eitherin vitro or in vivo, by fusing or conjugating the polypeptides of thepresent invention to antibodies specific for particular cell surfacereceptors. Antibodies fused or conjugated to the polypeptides of thepresent invention may also be used in in vitro immunoassays andpurification methods using methods known in the art. See e.g., Harbor etal., supra, and PCT publication WO 93/21232; EP 439,095; Naramura etal., Immunol. Lett. 39:91-99 (1994); U.S. Pat. No. 5,474,981; Gillies etal., PNAS 89:1428-1432 (1992); Fell et al., J. Immunol. 146:2446-2452(1991), which are incorporated by reference in their entireties.

The present invention further includes compositions comprising thepolypeptides of the present invention fused or conjugated to antibodydomains other than the variable regions. For example, the polypeptidesof the present invention may be fused or conjugated to an antibody Fcregion, or portion thereof. The antibody portion fused to a polypeptideof the present invention may comprise the constant region, hinge region,CH1 domain, CH2 domain, and CH3 domain or any combination of wholedomains or portions thereof. The polypeptides may also be fused orconjugated to the above antibody portions to form multimers. Forexample, Fc portions fused to the polypeptides of the present inventioncan form dimers through disulfide bonding between the Fc portions.Higher multimeric forms can be made by fusing the polypeptides toportions of IgA and IgM. Methods for fusing or conjugating thepolypeptides of the present invention to antibody portions are known inthe art. See, e.g., U.S. Pat. Nos. 5,336,603; 5,622,929; 5,359,046;5,349,053; 5,447,851; 5,112,946; EP 307,434; EP 367,166; PCTpublications WO 96/04388; WO 91/06570; Ashkenazi et al., Proc. Natl.Acad. Sci. USA 88:10535-10539 (1991); Zheng et al., J. Immunol.154:5590-5600 (1995); and Vil et al., Proc. Natl. Acad. Sci. USA89:11337-11341 (1992) (said references incorporated by reference intheir entireties).

As discussed, supra, the polypeptides corresponding to a polypeptide,polypeptide fragment, or a variant of SEQ ID NO:Y may be fused orconjugated to the above antibody portions to increase the in vivo halflife of the polypeptides or for use in immunoassays using methods knownin the art. Further, the polypeptides corresponding to SEQ ID NO:Y maybe fused or conjugated to the above antibody portions to facilitatepurification. One reported example describes chimeric proteinsconsisting of the first two domains of the human CD4-polypeptide andvarious domains of the constant regions of the heavy or light chains ofmammalian immunoglobulins. See EP 394,827; and Traunecker et al., Nature331:84-86 (1988). The polypeptides of the present invention fused orconjugated to an antibody having disulfide-linked dimeric structures(due to the IgG) may also be more efficient in binding and neutralizingother molecules, than the monomeric secreted protein or protein fragmentalone. See, for example, Fountoulakis et al., J. Biochem. 270:3958-3964(1995). In many cases, the Fc part in a fusion protein is beneficial intherapy and diagnosis, and thus can result in, for example, improvedpharmacokinetic properties. See, for example, EP A 232,262.Alternatively, deleting the Fc part after the fusion protein has beenexpressed, detected, and purified, would be desired. For example, the Fcportion may hinder therapy and diagnosis if the fusion protein is usedas an antigen for immunizations. In drug discovery, for example, humanproteins, such as hIL-5, have been fused with Fc portions for thepurpose of high-throughput screening assays to identify antagonists ofhIL-5. (See, Bennett et al., J. Molecular Recognition 8:52-58 (1995);Johanson et al., J. Biol. Chem. 270:9459-9471 (1995)).

Moreover, the antibodies or fragments thereof of the present inventioncan be fused to marker sequences, such as a peptide to facilitatepurification. In preferred embodiments, the marker amino acid sequenceis a hexa-histidine peptide, such as the tag provided in a pQE vector(QIAGEN, Inc., 9259 Eton Avenue, Chatsworth, Calif., 91311), amongothers, many of which are commercially available. As described in Gentzet al., Proc. Natl. Acad. Sci. USA 86:821-824 (1989), for instance,hexa-histidine provides for convenient purification of the fusionprotein. Other peptide tags useful for purification include, but are notlimited to, the “HA” tag, which corresponds to an epitope derived fromthe influenza hemagglutinin protein (Wilson et al., Cell 37:767 (1984))and the “flag” tag.

The present invention further encompasses antibodies or fragmentsthereof conjugated to a diagnostic or therapeutic agent. The antibodiescan be used diagnostically to, for example, monitor the development orprogression of a tumor as part of a clinical testing procedure to, e.g.,determine the efficacy of a given treatment regimen. Detection can befacilitated by coupling the antibody to a detectable substance. Examplesof detectable substances include various enzymes, prosthetic groups,fluorescent materials, luminescent materials, bioluminescent materials,radioactive materials, positron emitting metals using various positronemission tomographies, and nonradioactive paramagnetic metal ions. Thedetectable substance may be coupled or conjugated either directly to theantibody (or fragment thereof) or indirectly, through an intermediate(such as, for example, a linker known in the art) using techniques knownin the art. See, for example, U.S. Pat. No. 4,741,900 for metal ionsthat can be conjugated to antibodies for use as diagnostics according tothe present invention. Examples of suitable enzymes include horseradishperoxidase, alkaline phosphatase, beta-galactosidase, oracetylcholinesterase; examples of suitable prosthetic group complexesinclude streptavidin/biotin and avidin/biotin; examples of suitablefluorescent materials include umbelliferone, fluorescein, fluoresceinisothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansylchloride or phycoerythrin; an example of a luminescent material includesluminol; examples of bioluminescent materials include luciferase,luciferin, and aequorin; and examples of suitable radioactive materialinclude 125I, 131I, 11lIn or 99Tc.

Further, an antibody or fragment thereof may be conjugated to atherapeutic moiety such as a cytotoxin, e.g., a cytostatic or cytocidalagent, a therapeutic agent or a radioactive metal ion, e.g.,alpha-emitters such as, for example, 213Bi. A cytotoxin or cytotoxicagent includes any agent that is detrimental to cells. Examples includepaclitaxol, cytochalasin B, gramicidin D, ethidium bromide, emetine,mitomycin, etoposide, tenoposide, vincristine, vinblastine, colchicin,doxorubicin, daunorubicin, dihydroxy anthracin dione, mitoxantrone,mithramycin, actinomycin D, 1-dehydrotestosterone, glucocorticoids,procaine, tetracaine, lidocaine, propranolol, and puromycin and analogsor homologs thereof. Therapeutic agents include, but are not limited to,antimetabolites (e.g., methotrexate, 6-mercaptopurine, 6-thioguanine,cytarabine, 5-fluorouracil decarbazine), alkylating agents (e.g.,mechlorethamine, thioepa chlorambucil, melphalan, carmustine (BSNU) andlomustine (CCNU), cyclothosphamide, busulfan, dibromomannitol,streptozotocin, mitomycin C, and cis-dichlorodiamine platinum (II) (DDP)cisplatin), anthracyclines (e.g., daunorubicin (formerly daunomycin) anddoxorubicin), antibiotics (e.g., dactinomycin (formerly actinomycin),bleomycin, mithramycin, and anthramycin (AMC)), and anti-mitotic agents(e.g., vincristine and vinblastine).

The conjugates of the invention can be used for modifying a givenbiological response, the therapeutic agent or drug moiety is not to beconstrued as limited to classical chemical therapeutic agents. Forexample, the drug moiety may be a protein or polypeptide possessing adesired biological activity. Such proteins may include, for example, atoxin such as abrin, ricin A, pseudomonas exotoxin, or diphtheria toxin;a protein such as tumor necrosis factor, a-interferon, β-interferon,nerve growth factor, platelet derived growth factor, tissue plasminogenactivator, an apoptotic agent, e.g., TNF-alpha, TNF-beta, AIM I (See,International Publication No. WO 97/33899), AIM II (See, InternationalPublication No. WO 97/34911), Fas Ligand (Takahashi et al, Int.Immunol., 6:1567-1574 (1994)), VEGI (See, International Publication No.WO 99/23105), a thrombotic agent or an anti-angiogenic agent, e.g.,angiostatin or endostatin; or, biological response modifiers such as,for example, lymphokines, interleukin-1 (“IL-1”), interleukin-2(“IL-2”), interleukin-6 (“IL-6”), granulocyte macrophage colonystimulating factor (“GM-CSF”), granulocyte colony stimulating factor(“G-CSF”), or other growth factors.

Antibodies may also be attached to solid supports, which areparticularly useful for immunoassays or purification of the targetantigen. Such solid supports include, but are not limited to, glass,cellulose, polyacrylamide, nylon, polystyrene, polyvinyl chloride orpolypropylene.

Techniques for conjugating such therapeutic moiety to antibodies arewell known. See, for example, Arnon et al., “Monoclonal Antibodies ForImmunotargeting Of Drugs In Cancer Therapy”, in Monoclonal AntibodiesAnd Cancer Therapy, Reisfeld et al. (eds.), pp. 243-56 (Alan R. Liss,Inc. 1985); Hellstrom et al., “Antibodies For Drug Delivery”, inControlled Drug Delivery (2nd Ed.), Robinson et al. (eds.), pp. 623-53(Marcel Dekker, Inc. 1987); Thorpe, “Antibody Carriers Of CytotoxicAgents In Cancer Therapy: A Review”, in Monoclonal Antibodies '84:Biological And Clinical Applications, Pinchera et al. (eds.), pp.475-506 (1985); “Analysis, Results, And Future Prospective Of TheTherapeutic Use Of Radiolabeled Antibody In Cancer Therapy”, inMonoclonal Antibodies For Cancer Detection And Therapy, Baldwin et al.(eds.), pp. 303-16 (Academic Press 1985), and Thorpe et al., “ThePreparation And Cytotoxic Properties Of Antibody-Toxin Conjugates”,Immunol. Rev. 62:119-58 (1982).

Alternatively, an antibody can be conjugated to a second antibody toform an antibody heteroconjugate as described by Segal in U.S. Pat. No.4,676,980, which is incorporated herein by reference in its entirety.

An antibody, with or without a therapeutic moiety conjugated to it,administered alone or in combination with cytotoxic factor(s) and/orcytokine(s) can be used as a therapeutic.

Immunophenotyping

The antibodies of the invention may be utilized for immunophenotyping ofcell lines and biological samples. Translation products of the gene ofthe present invention may be useful as cell-specific markers, or morespecifically as cellular markers that are differentially expressed atvarious stages of differentiation and/or maturation of particular celltypes. Monoclonal antibodies directed against a specific epitope, orcombination of epitopes, will allow for the screening of cellularpopulations expressing the marker. Various techniques can be utilizedusing monoclonal antibodies to screen for cellular populationsexpressing the marker(s), and include magnetic separation usingantibody-coated magnetic beads, “panning” with antibody attached to asolid matrix (i.e., plate), and flow cytometry (See, e.g., U.S. Pat. No.5,985,660; and Morrison et al., Cell, 96:737-49 (1999)).

These techniques allow for the screening of particular populations ofcells, such as might be found with hematological malignancies (i.e.minimal residual disease (MRD) in acute leukemic patients) and“non-self” cells in transplantations to prevent Graft-versus-HostDisease (GVHD). Alternatively, these techniques allow for the screeningof hematopoietic stem and progenitor cells capable of undergoingproliferation and/or differentiation, as might be found in humanumbilical cord blood.

Assays for Antibody Binding

The antibodies of the invention may be assayed for immunospecificbinding by any method known in the art. The immunoassays which can beused include but are not limited to competitive and non-competitiveassay systems using techniques such as western blots, radioimmunoassays,ELISA (enzyme linked immunosorbent assay), “sandwich” immunoassays,immunoprecipitation assays, precipitin reactions, gel diffusionprecipitin reactions, immunodiffusion assays, agglutination assays,complement-fixation assays, immunoradiometric assays, fluorescentimmunoassays, and protein A immunoassays, to name but a few. Such assaysare routine and well known in the art (see, e.g., Ausubel et al, eds,1994, Current Protocols in Molecular Biology, Vol. 1, John Wiley & Sons,Inc., New York, which is incorporated by reference herein in itsentirety). Exemplary immunoassays are described briefly below (but arenot intended by way of limitation).

Immunoprecipitation protocols generally comprise lysing a population ofcells in a lysis buffer such as RIPA buffer (1% NP-40 or Triton X-100,1% sodium deoxycholate, 0.1% SDS, 0.15 M NaCl, 0.01 M sodium phosphateat pH 7.2, 1% Trasylol) supplemented with protein phosphatase and/orprotease inhibitors (e.g., EDTA, PMSF, aprotinin, sodium vanadate),adding the antibody of interest to the cell lysate, incubating for aperiod of time (e.g., 1-4 hours) at 4° C., adding protein A and/orprotein G sepharose beads to the cell lysate, incubating for about anhour or more at 4° C., washing the beads in lysis buffer andresuspending the beads in SDS/sample buffer. The ability of the antibodyof interest to immunoprecipitate a particular antigen can be assessedby, e.g., western blot analysis. One of skill in the art would beknowledgeable as to the parameters that can be modified to increase thebinding of the antibody to an antigen and decrease the background (e.g.,pre-clearing the cell lysate with sepharose beads). For furtherdiscussion regarding immunoprecipitation protocols see, e.g., Ausubel etal., eds., (1994), Current Protocols in Molecular Biology, Vol. 1, JohnWiley & Sons, Inc., New York, section 10.16.1.

Western blot analysis generally comprises preparing protein samples,electrophoresis of the protein samples in a polyacrylamide gel (e.g.,8%-20% SDS-PAGE depending on the molecular weight of the antigen),transferring the protein sample from the polyacrylamide gel to amembrane such as nitrocellulose, PVDF or nylon, blocking the membrane inblocking solution (e.g., PBS with 3% BSA or non-fat milk), washing themembrane in washing buffer (e.g., PBS-Tween 20), blocking the membranewith primary antibody (the antibody of interest) diluted in blockingbuffer, washing the membrane in washing buffer, blocking the membranewith a secondary antibody (which recognizes the primary antibody, e.g.,an anti-human antibody) conjugated to an enzymatic substrate (e.g.,horseradish peroxidase or alkaline phosphatase) or radioactive molecule(e.g., 32P or 125I) diluted in blocking buffer, washing the membrane inwash buffer, and detecting the presence of the antigen. One of skill inthe art would be knowledgeable as to the parameters that can be modifiedto increase the signal detected and to reduce the background noise. Forfurther discussion regarding western blot protocols see, e.g., Ausubelet al, eds, (1994), Current Protocols in Molecular Biology, Vol. 1, JohnWiley & Sons, Inc., New York, section 10.8.1.

ELISAs comprise preparing antigen, coating the well of a 96 wellmicrotiter plate with the antigen, adding the antibody of interestconjugated to a detectable compound such as an enzymatic substrate(e.g., horseradish peroxidase or alkaline phosphatase) to the well andincubating for a period of time, and detecting the presence of theantigen. In ELISAs the antibody of interest does not have to beconjugated to a detectable compound; instead, a second antibody (whichrecognizes the antibody of interest) conjugated to a detectable compoundmay be added to the well. Further, instead of coating the well with theantigen, the antibody may be coated to the well. In this case, a secondantibody conjugated to a detectable compound may be added following theaddition of the antigen of interest to the coated well. One of skill inthe art would be knowledgeable as to the parameters that can be modifiedto increase the signal detected as well as other variations of ELISAsknown in the art. For further discussion regarding ELISAs see, e.g.,Ausubel et al, eds, (1994), Current Protocols in Molecular Biology, Vol.1, John Wiley & Sons, Inc., New York, section 11.2.1.

The binding affinity of an antibody to an antigen and the off-rate of anantibody-antigen interaction can be determined by competitive bindingassays. One example of a competitive binding assay is a radioimmunoassaycomprising the incubation of labeled antigen (e.g., 3H or 125I) with theantibody of interest in the presence of increasing amounts of unlabeledantigen, and the detection of the antibody bound to the labeled antigen.The affinity of the antibody of interest for a particular antigen andthe binding off-rates can be determined from the data by scatchard plotanalysis. Competition with a second antibody can also be determinedusing radioimmunoassays. In this case, the antigen is incubated withantibody of interest conjugated to a labeled compound (e.g., 3H or 125I)in the presence of increasing amounts of an unlabeled second antibody.

Antibodies of the invention may be characterized usingimmunocytochemisty methods on cells (e.g., mammalian cells, such as CHOcells) transfected with a vector enabling the expression of an antigenor with vector alone using techniques commonly known in the art.Antibodies that bind antigen transfected cells, but not vector-onlytransfected cells, are antigen specific.

Therapeutic Uses

Table 1D also provides information regarding biological activities andpreferred therapeutic uses (i.e. see, “Preferred Indications” column)for polynucleotides and polypeptides of the invention (includingantibodies, agonists, and/or antagonists thereof). Table 1D alsoprovides information regarding assays which may be used to testpolynucleotides and polypeptides of the invention (including antibodies,agonists, and/or antagonists thereof) for the corresponding biologicalactivities. The first column (“Gene No.”) provides the gene number inthe application for each clone identifier. The second column (“cDNA ATCCDeposit No: Z”) provides the unique clone identifier for each clone aspreviously described and indicated in Table 1A, Table 1B, and Table 1C.The third column (“AA SEQ ID NO:Y”) indicates the Sequence Listing SEQID Number for polypeptide sequences encoded by the corresponding cDNAclones (also as indicated in Table 1A, Table 1B, and Table 2). Thefourth column (“Biological Activity”) indicates a biological activitycorresponding to the indicated polypeptides (or polynucleotides encodingsaid polypeptides). The fifth column (“Exemplary Activity Assay”)further describes the corresponding biological activity and alsoprovides information pertaining to the various types of assays that maybe performed to test, demonstrate, or quantify the correspondingbiological activity.

The present invention is further directed to antibody-based therapieswhich involve administering antibodies of the invention to an animal,preferably a mammal, and most preferably a human, patient for treatingone or more of the disclosed diseases, disorders, or conditions.Therapeutic compounds of the invention include, but are not limited to,antibodies of the invention (including fragments, analogs andderivatives thereof as described herein) and nucleic acids encodingantibodies of the invention (including fragments, analogs andderivatives thereof and anti-idiotypic antibodies as described herein).The antibodies of the invention can be used to detect, prevent,diagnose, prognosticate, treat, and/or ameliorate diseases, disorders orconditions associated with aberrant expression and/or activity of apolypeptide of the invention, including, but not limited to, allergicand/or asthmatic diseases and disorders. The treatment and/or preventionof allergic and/or asthmatic diseases and disorders associated withaberrant expression and/or activity of a polypeptide of the inventionincludes, but is not limited to, alleviating symptoms associated withallergic and/or asthmatic diseases and disorders. Antibodies of theinvention may be provided in pharmaceutically acceptable compositions asknown in the art or as described herein.

In a specific and preferred embodiment, the present invention isdirected to antibody-based therapies which involve administeringantibodies of the invention to an animal, preferably a mammal, and mostpreferably a human, patient for treating allergic and/or asthmaticdiseases and disorders. Therapeutic compounds of the invention include,but are not limited to, antibodies of the invention (e.g., antibodiesdirected to the full length protein expressed on the cell surface of amammalian cell; antibodies directed to an epitope of a polypeptide ofthe invention (such as, for example, a predicted linear epitope shown inTable 1B; or a conformational epitope, including fragments, analogs andderivatives thereof as described herein) and nucleic acids encodingantibodies of the invention (including fragments, analogs andderivatives thereof and anti-idiotypic antibodies as described herein).The antibodies of the invention can be used to detect, diagnose,prevent, treat, prognosticate, and/or ameliorate allergic and/orasthmatic diseases, disorders or conditions associated with aberrantexpression and/or activity of a polypeptide of the invention. Thetreatment and/or prevention of allergic and/or asthmatic diseases,disorders or conditions associated with aberrant expression and/oractivity of a polypeptide of the invention includes, but is not limitedto, alleviating symptoms associated with those diseases, disorders orconditions. Antibodies of the invention may be provided inpharmaceutically acceptable compositions as known in the art or asdescribed herein.

A summary of the ways in which the antibodies of the present inventionmay be used therapeutically includes binding polynucleotides orpolypeptides of the present invention locally or systemically in thebody or by direct cytotoxicity of the antibody, e.g. as mediated bycomplement (CDC) or by effector cells (ADCC). Some of these approachesare described in more detail below. Armed with the teachings providedherein, one of ordinary skill in the art will know how to use theantibodies of the present invention for diagnostic, monitoring ortherapeutic purposes without undue experimentation.

The antibodies of this invention may be advantageously utilized incombination with other monoclonal or chimeric antibodies, or withlymphokines or hematopoietic growth factors (such as, e.g., IL-2, IL-3and IL-7), for example, which serve to increase the number or activityof effector cells that interact with the antibodies.

The antibodies of the invention may be administered alone or incombination with other types of treatments (e.g., radiation therapy,chemotherapy, hormonal therapy, immunotherapy and anti-tumor agents).Generally, administration of products of a species origin or speciesreactivity (in the case of antibodies) that is the same species as thatof the patient is preferred. Thus, in a preferred embodiment, humanantibodies, fragments derivatives, analogs, or nucleic acids, areadministered to a human patient for therapy or prophylaxis.

It is preferred to use high affinity and/or potent in vivo inhibitingand/or neutralizing antibodies against polypeptides or polynucleotidesof the present invention, fragments or regions thereof, for bothimmunoassays directed to and therapy of allergic and/or asthmaticdiseases or disorders related to polynucleotides or polypeptides,including fragments thereof, of the present invention. Such antibodies,fragments, or regions, will preferably have an affinity forpolynucleotides or polypeptides of the invention, including fragmentsthereof. Preferred binding affinities include those with a dissociationconstant or Kd less than 5×10⁻² M, 10⁻² M, 5×10⁻³ M, 10⁻³ M, 5×10⁻⁴ M,10⁻⁴ M, 5×10⁻⁵ M, 10⁻⁵ M, 5×10⁻⁶ M, 10⁻⁶ M, 5×10⁻⁷ M, 10⁻⁷ M, 5×10⁻⁸ M,10⁻⁸ M, 5×10⁻⁹ M, 10⁻⁹ M, 5×10⁻¹⁰ M, 10⁻¹⁰ M, 5×10⁻¹¹ M, 10⁻¹¹ M,5×10⁻¹² M, 10⁻¹² M, 5×10⁻¹³ M, 10⁻¹³ M, 5×10⁻¹⁴ M, 10⁻¹⁴ M, 5×10⁻¹⁵ M,and 10⁻¹⁵ M.

Gene Therapy

In a specific embodiment, nucleic acids comprising sequences encodingantibodies or functional derivatives thereof, are administered to treat,inhibit or prevent an allergic and/or asthmatic disease or disorderassociated with aberrant expression and/or activity of a polypeptide ofthe invention, by way of gene therapy. Gene therapy refers to therapyperformed by the administration to a subject of an expressed orexpressible nucleic acid. In this embodiment of the invention, thenucleic acids produce their encoded protein that mediates a therapeuticeffect.

Any of the methods for gene therapy available in the art can be usedaccording to the present invention. Exemplary methods are describedbelow.

For general reviews of the methods of gene therapy, see Goldspiel etal., Clinical Pharmacy 12:488-505 (1993); Wu and Wu, Biotherapy 3:87-95(1991); Tolstoshev, Ann. Rev. Pharmacol. Toxicol. 32:573-596 (1993);Mulligan, Science 260:926-932 (1993); and Morgan and Anderson, Ann. Rev.Biochem. 62:191-217 (1993); May, TIBTECH 11(5):155-215 (1993). Methodscommonly known in the art of recombinant DNA technology which can beused are described in Ausubel et al. (eds.), Current Protocols inMolecular Biology, John Wiley & Sons, NY (1993); and Kriegler, GeneTransfer and Expression, A Laboratory Manual, Stockton Press, NY (1990).

In a preferred embodiment, the compound comprises nucleic acid sequencesencoding an antibody, said nucleic acid sequences being part ofexpression vectors that express the antibody or fragments or chimericproteins or heavy or light chains thereof in a suitable host. Inparticular, such nucleic acid sequences have promoters operably linkedto the antibody coding region, said promoter being inducible orconstitutive, and, optionally, tissue-specific. In another particularembodiment, nucleic acid molecules are used in which the antibody codingsequences and any other desired sequences are flanked by regions thatpromote homologous recombination at a desired site in the genome, thusproviding for intrachromosomal expression of the antibody encodingnucleic acids (Koller and Smithies, Proc. Natl. Acad. Sci. USA86:8932-8935 (1989); Zijlstra et al., Nature 342:435-438 (1989). Inspecific embodiments, the expressed antibody molecule is a single chainantibody; alternatively, the nucleic acid sequences include sequencesencoding both the heavy and light chains, or fragments thereof, of theantibody.

Delivery of the nucleic acids into a patient may be either direct, inwhich case the patient is directly exposed to the nucleic acid ornucleic acid-carrying vectors, or indirect, in which case, cells arefirst transformed with the nucleic acids in vitro, then transplantedinto the patient. These two approaches are known, respectively, as invivo or ex vivo gene therapy.

In a specific embodiment, the nucleic acid sequences are directlyadministered in vivo, where it is expressed to produce the encodedproduct. This can be accomplished by any of numerous methods known inthe art, e.g., by constructing them as part of an appropriate nucleicacid expression vector and administering it so that they becomeintracellular, e.g., by infection using defective or attenuatedretrovirals or other viral vectors (see U.S. Pat. No. 4,980,286), or bydirect injection of naked DNA, or by use of microparticle bombardment(e.g., a gene gun; Biolistic, Dupont), or coating with lipids orcell-surface receptors or transfecting agents, encapsulation inliposomes, microparticles, or microcapsules, or by administering them inlinkage to a peptide which is known to enter the nucleus, byadministering it in linkage to a ligand subject to receptor-mediatedendocytosis (see, e.g., Wu and Wu, J. Biol. Chem. 262:4429-4432 (1987))(which can be used to target cell types specifically expressing thereceptors), etc. In another embodiment, nucleic acid-ligand complexescan be formed in which the ligand comprises a fusogenic viral peptide todisrupt endosomes, allowing the nucleic acid to avoid lysosomaldegradation. In yet another embodiment, the nucleic acid can be targetedin vivo for cell specific uptake and expression, by targeting a specificreceptor (see, e.g., PCT Publications WO 92/06180; WO 92/22635;WO92/20316; WO93/14188, WO 93/20221). Alternatively, the nucleic acidcan be introduced intracellularly and incorporated within host cell DNAfor expression, by homologous recombination (Koller and Smithies, Proc.Natl. Acad. Sci. USA 86:8932-8935 (1989); Zijlstra et al., Nature342:435-438 (1989)).

In a specific embodiment, viral vectors that contain nucleic acidsequences encoding an antibody of the invention are used. For example, aretroviral vector can be used (see Miller et al., Meth. Enzymol.217:581-599 (1993)). These retroviral vectors contain the componentsnecessary for the correct packaging of the viral genome and integrationinto the host cell DNA. The nucleic acid sequences encoding the antibodyto be used in gene therapy are cloned into one or more vectors, whichfacilitate delivery of the gene into a patient. More detail aboutretroviral vectors can be found in Boesen et al., Biotherapy 6:291-302(1994), which describes the use of a retroviral vector to deliver themdr1 gene to hematopoietic stem cells in order to make the stem cellsmore resistant to chemotherapy. Other references illustrating the use ofretroviral vectors in gene therapy are: Clowes et al., J. Clin. Invest.93:644-651 (1994); Kiem et al., Blood 83:1467-1473 (1994); Salmons andGunzberg, Human Gene Therapy 4:129-141 (1993); and Grossman and Wilson,Curr. Opin. in Genetics and Devel. 3:110-114 (1993).

Adenoviruses are other viral vectors that can be used in gene therapy.Adenoviruses are especially attractive vehicles for delivering genes torespiratory epithelia. Adenoviruses naturally infect respiratoryepithelia where they cause a mild disease. Other targets foradenovirus-based delivery systems are liver, the central nervous system,endothelial cells, and muscle. Adenoviruses have the advantage of beingcapable of infecting non-dividing cells. Kozarsky and Wilson, CurrentOpinion in Genetics and Development 3:499-503 (1993) present a review ofadenovirus-based gene therapy. Bout et al., Human Gene Therapy 5:3-10(1994) demonstrated the use of adenovirus vectors to transfer genes tothe respiratory epithelia of rhesus monkeys. Other instances of the useof adenoviruses in gene therapy can be found in Rosenfeld et al.,Science 252:431-434 (1991); Rosenfeld et al., Cell 68:143-155 (1992);Mastrangeli et al., J. Clin. Invest. 91:225-234 (1993); PCT PublicationWO94/12649; and Wang, et al., Gene Therapy 2:775-783 (1995). In apreferred embodiment, adenovirus vectors are used.

Adeno-associated virus (AAV) has also been proposed for use in genetherapy (Walsh et al., Proc. Soc. Exp. Biol. Med. 204:289-300 (1993);U.S. Pat. No. 5,436,146).

Another approach to gene therapy involves transferring a gene to cellsin tissue culture by such methods as electroporation, lipofection,calcium phosphate mediated transfection, or viral infection. Usually,the method of transfer includes the transfer of a selectable marker tothe cells. The cells are then placed under selection to isolate thosecells that have taken up and are expressing the transferred gene. Thosecells are then delivered to a patient.

In this embodiment, the nucleic acid is introduced into a cell prior toadministration in vivo of the resulting recombinant cell. Suchintroduction can be carried out by any method known in the art,including but not limited to transfection, electroporation,microinjection, infection with a viral or bacteriophage vectorcontaining the nucleic acid sequences, cell fusion, chromosome-mediatedgene transfer, microcell-mediated gene transfer, spheroplast fusion,etc. Numerous techniques are known in the art for the introduction offoreign genes into cells (see, e.g., Loeffler and Behr, Meth. Enzymol.217:599-618 (1993); Cohen et al., Meth. Enzymol. 217:618-644 (1993);Cline, Pharmac. Ther. 29:69-92m (1985) and may be used in accordancewith the present invention, provided that the necessary developmentaland physiological functions of the recipient cells are not disrupted.The technique should provide for the stable transfer of the nucleic acidto the cell, so that the nucleic acid is expressible by the cell andpreferably heritable and expressible by its cell progeny.

The resulting recombinant cells can be delivered to a patient by variousmethods known in the art. Recombinant blood cells (e.g., hematopoieticstem or progenitor cells) are preferably administered intravenously. Theamount of cells envisioned for use depends on the desired effect,patient state, etc., and can be determined by one skilled in the art.

Cells into which a nucleic acid can be introduced for purposes of genetherapy encompass any desired, available cell type, and include but arenot limited to epithelial cells, endothelial cells, keratinocytes,fibroblasts, muscle cells, hepatocytes; blood cells such as Tlymphocytes, B lymphocytes, monocytes, macrophages, neutrophils,eosinophils, megakaryocytes, granulocytes; various stem or progenitorcells, in particular hematopoietic stem or progenitor cells, e.g., asobtained from bone marrow, umbilical cord blood, peripheral blood, fetalliver, etc.

In a preferred embodiment, the cell used for gene therapy is autologousto the patient.

In an embodiment in which recombinant cells are used in gene therapy,nucleic acid sequences encoding an antibody are introduced into thecells such that they are expressible by the cells or their progeny, andthe recombinant cells are then administered in vivo for therapeuticeffect. In a specific embodiment, stem or progenitor cells are used. Anystem and/or progenitor cells which can be isolated and maintained invitro can potentially be used in accordance with this embodiment of thepresent invention (see e.g. PCT Publication WO 94/08598; Stemple andAnderson, Cell 71:973-985 (1992); Rheinwald, Meth. Cell Bio. 21A:229(1980); and Pittelkow and Scott, Mayo Clinic Proc. 61:771 (1986)).

In a specific embodiment, the nucleic acid to be introduced for purposesof gene therapy comprises an inducible promoter operably linked to thecoding region, such that expression of the nucleic acid is controllableby the presence or absence of an appropriate inducer of transcription.

Demonstration of Therapeutic or Prophylactic Activity

The compounds or pharmaceutical compositions of the invention arepreferably tested in vitro, and then in vivo for the desired therapeuticor prophylactic activity, prior to use in humans. For example, in vitroassays to demonstrate the therapeutic or prophylactic utility of acompound or pharmaceutical composition include, the effect of a compoundon a cell line or a patient tissue sample. The effect of the compound orcomposition on the cell line and/or tissue sample can be determinedutilizing techniques known to those of skill in the art including, butnot limited to, rosette formation assays and cell lysis assays. Inaccordance with the invention, in vitro assays which can be used todetermine whether administration of a specific compound is indicated,include in vitro cell culture assays in which a patient tissue sample isgrown in culture, and exposed to or otherwise administered a compound,and the effect of such compound upon the tissue sample is observed.

Therapeutic/Prophylactic Administration and Composition

The invention provides methods of treatment, inhibition and prophylaxisby administration to a subject of an effective amount of a compound orpharmaceutical composition of the invention, preferably a polypeptide orantibody of the invention. In a preferred embodiment, the compound issubstantially purified (e.g., substantially free from substances thatlimit its effect or produce undesired side-effects). The subject ispreferably an animal, including but not limited to animals such as cows,pigs, horses, chickens, cats, dogs, etc., and is preferably a mammal,and most preferably human.

Formulations and methods of administration that can be employed when thecompound comprises a nucleic acid or an immunoglobulin are describedabove; additional appropriate formulations and routes of administrationcan be selected from among those described herein below.

Various delivery systems are known and can be used to administer acompound of the invention, e.g., encapsulation in liposomes,microparticles, microcapsules, recombinant cells capable of expressingthe compound, receptor-mediated endocytosis (see, e.g., Wu and Wu, J.Biol. Chem. 262:4429-4432 (1987)), construction of a nucleic acid aspart of a retroviral or other vector, etc. Methods of introductioninclude but are not limited to intradermal, intramuscular,intraperitoneal, intravenous, subcutaneous, intranasal, epidural, andoral routes. The compounds or compositions may be administered by anyconvenient route, for example by infusion or bolus injection, byabsorption through epithelial or mucocutaneous linings (e.g., oralmucosa, rectal and intestinal mucosa, etc.) and may be administeredtogether with other biologically active agents. Administration can besystemic or local. In addition, it may be desirable to introduce thepharmaceutical compounds or compositions of the invention into thecentral nervous system by any suitable route, including intraventricularand intrathecal injection; intraventricular injection may be facilitatedby an intraventricular catheter, for example, attached to a reservoir,such as an Ommaya reservoir. Pulmonary administration can also beemployed, e.g., by use of an inhaler or nebulizer, and formulation withan aerosolizing agent.

In a specific embodiment, it may be desirable to administer thepharmaceutical compounds or compositions of the invention locally to thearea in need of treatment; this may be achieved by, for example, and notby way of limitation, local infusion during surgery, topicalapplication, e.g., in conjunction with a wound dressing after surgery,by injection, by means of a catheter, by means of a suppository, or bymeans of an implant, said implant being of a porous, non-porous, orgelatinous material, including membranes, such as sialastic membranes,or fibers. Preferably, when administering a protein, including anantibody, of the invention, care must be taken to use materials to whichthe protein does not absorb.

In another embodiment, the compound or composition can be delivered in avesicle, in particular a liposome (see Langer, Science 249:1527-1533(1990); Treat et al., in Liposomes in the Therapy of Infectious Diseaseand Cancer, Lopez-Berestein and Fidler (eds.), Liss, New York, pp.353-365 (1989); Lopez-Berestein, ibid., pp. 317-327; see generallyibid.)

In yet another embodiment, the compound or composition can be deliveredin a controlled release system. In one embodiment, a pump may be used(see Langer, supra; Sefton, CRC Crit. Ref. Biomed. Eng. 14:201 (1987);Buchwald et al., Surgery 88:507 (1980); Saudek et al., N. Engl. J. Med.321:574 (1989)). In another embodiment, polymeric materials can be used(see Medical Applications of Controlled Release, Langer and Wise (eds.),CRC Pres., Boca Raton, Fla. (1974); Controlled Drug Bioavailability,Drug Product Design and Performance, Smolen and Ball (eds.), Wiley, NewYork (1984); Ranger and Peppas, J., Macromol. Sci. Rev. Macromol. Chem.23:61 (1983); see also Levy et al., Science 228:190 (1985); During etal., Ann. Neurol. 25:351 (1989); Howard et al., J. Neurosurg. 71:105(1989)). In yet another embodiment, a controlled release system can beplaced in proximity of the therapeutic target, e.g., the brain, thusrequiring only a fraction of the systemic dose (see, e.g., Goodson, inMedical Applications of Controlled Release, supra, vol. 2, pp. 115-138(1984)).

Other controlled release systems are discussed in the review by Langer(Science 249:1527-1533 (1990)).

In a specific embodiment where the compound of the invention is anucleic acid encoding a protein, the nucleic acid can be administered invivo to promote expression of its encoded protein, by constructing it aspart of an appropriate nucleic acid expression vector and administeringit so that it becomes intracellular, e.g., by use of a retroviral vector(see U.S. Pat. No. 4,980,286), or by direct injection, or by use ofmicroparticle bombardment (e.g., a gene gun; Biolistic, Dupont), orcoating with lipids or cell-surface receptors or transfecting agents, orby administering it in linkage to a homeobox-like peptide which is knownto enter the nucleus (see e.g., Joliot et al., Proc. Natl. Acad. Sci.USA 88:1864-1868 (1991)), etc. Alternatively, a nucleic acid can beintroduced intracellularly and incorporated within host cell DNA forexpression, by homologous recombination.

The present invention also provides pharmaceutical compositions. Suchcompositions comprise a therapeutically effective amount of a compound,and a pharmaceutically acceptable carrier. In a specific embodiment, theterm “pharmaceutically acceptable” means approved by a regulatory agencyof the Federal or a state government or listed in the U.S. Pharmacopeiaor other generally recognized pharmacopeia for use in animals, and moreparticularly in humans. The term “carrier” refers to a diluent,adjuvant, excipient, or vehicle with which the therapeutic isadministered. Such pharmaceutical carriers can be sterile liquids, suchas water and oils, including those of petroleum, animal, vegetable orsynthetic origin, such as peanut oil, soybean oil, mineral oil, sesameoil and the like. Water is a preferred carrier when the pharmaceuticalcomposition is administered intravenously. Saline solutions and aqueousdextrose and glycerol solutions can also be employed as liquid carriers,particularly for injectable solutions. Suitable pharmaceuticalexcipients include starch, glucose, lactose, sucrose, gelatin, malt,rice, flour, chalk, silica gel, sodium stearate, glycerol monostearate,talc, sodium chloride, dried skim milk, glycerol, propylene, glycol,water, ethanol and the like. The composition, if desired, can alsocontain minor amounts of wetting or emulsifying agents, or pH bufferingagents. These compositions can take the form of solutions, suspensions,emulsion, tablets, pills, capsules, powders, sustained-releaseformulations and the like. The composition can be formulated as asuppository, with traditional binders and carriers such astriglycerides. Oral formulation can include standard carriers such aspharmaceutical grades of mannitol, lactose, starch, magnesium stearate,sodium saccharine, cellulose, magnesium carbonate, etc. Examples ofsuitable pharmaceutical carriers are described in “Remington'sPharmaceutical Sciences” by E. W. Martin. Such compositions will containa therapeutically effective amount of the compound, preferably inpurified form, together with a suitable amount of carrier so as toprovide the form for proper administration to the patient. Theformulation should suit the mode of administration.

In a preferred embodiment, the composition is formulated in accordancewith routine procedures as a pharmaceutical composition adapted forintravenous administration to human beings. Typically, compositions forintravenous administration are solutions in sterile isotonic aqueousbuffer. Where necessary, the composition may also include a solubilizingagent and a local anesthetic such as lignocaine to ease pain at the siteof the injection. Generally, the ingredients are supplied eitherseparately or mixed together in unit dosage form, for example, as a drylyophilized powder or water free concentrate in a hermetically sealedcontainer such as an ampoule or sachette indicating the quantity ofactive agent. Where the composition is to be administered by infusion,it can be dispensed with an infusion bottle containing sterilepharmaceutical grade water or saline. Where the composition isadministered by injection, an ampoule of sterile water for injection orsaline can be provided so that the ingredients may be mixed prior toadministration.

The compounds of the invention can be formulated as neutral or saltforms. Pharmaceutically acceptable salts include those formed withanions such as those derived from hydrochloric, phosphoric, acetic,oxalic, tartaric acids, etc., and those formed with cations such asthose derived from sodium, potassium, ammonium, calcium, ferrichydroxides, isopropylamine, triethylamine, 2-ethylamino ethanol,histidine, procaine, etc.

The amount of the compound of the invention which will be effective inthe treatment, inhibition and prevention of a disease or disorderassociated with aberrant expression and/or activity of a polypeptide ofthe invention can be determined by standard clinical techniques. Inaddition, in vitro assays may optionally be employed to help identifyoptimal dosage ranges. The precise dose to be employed in theformulation will also depend on the route of administration, and theseriousness of the disease or disorder, and should be decided accordingto the judgment of the practitioner and each patient's circumstances.Effective doses may be extrapolated from dose-response curves derivedfrom in vitro or animal model test systems.

For antibodies, the dosage administered to a patient is typically 0.1mg/kg to 100 mg/kg of the patient's body weight. Preferably, the dosageadministered to a patient is between 0.1 mg/kg and 20 mg/kg of thepatient's body weight, more preferably 1 mg/kg to 10 mg/kg of thepatient's body weight. Generally, human antibodies have a longerhalf-life within the human body than antibodies from other species dueto the immune response to the foreign polypeptides. Thus, lower dosagesof human antibodies and less frequent administration is often possible.Further, the dosage and frequency of administration of antibodies of theinvention may be reduced by enhancing uptake and tissue penetration(e.g., into the brain) of the antibodies by modifications such as, forexample, lipidation.

The invention also provides a pharmaceutical pack or kit comprising oneor more containers filled with one or more of the ingredients of thepharmaceutical compositions of the invention. Optionally associated withsuch container(s) can be a notice in the form prescribed by agovernmental agency regulating the manufacture, use or sale ofpharmaceuticals or biological products, which notice reflects approvalby the agency of manufacture, use or sale for human administration.

Diagnosis and Imaging

Labeled antibodies, and derivatives and analogs thereof, whichspecifically bind to a polypeptide of interest can be used fordiagnostic purposes to detect, diagnose, prognosticate, or monitorallergic and/or asthmatic diseases, disorders, and/or conditionsassociated with the aberrant expression and/or activity of a polypeptideof the invention. The invention provides for the detection of aberrantexpression of a polypeptide of interest, comprising (a) assaying theexpression of the polypeptide of interest in cells or body fluid of anindividual using one or more antibodies specific to the polypeptideinterest and (b) comparing the level of gene expression with a standardgene expression level, whereby an increase or decrease in the assayedpolypeptide gene expression level compared to the standard expressionlevel is indicative of aberrant expression.

The invention provides a diagnostic assay for diagnosing an allergicand/or asthmatic disease or disorder, comprising (a) assaying theexpression of the polypeptide of interest in cells or body fluid of anindividual using one or more antibodies specific to the polypeptideinterest and (b) comparing the level of gene expression with a standardgene expression level, whereby an increase or decrease in the assayedpolypeptide gene expression level compared to the standard expressionlevel is indicative of a particular allergic and/or asthmatic disease ordisorder. With respect to an allergic and/or asthmatic disease ordisorder, the presence of a relatively high amount of transcript inbiopsied tissue from an individual may indicate a predisposition for thedevelopment of the disease, or may provide a means for detecting thedisease prior to the appearance of actual clinical symptoms. A moredefinitive diagnosis of this type may allow health professionals toemploy preventative measures or aggressive treatment earlier therebypreventing the development or further progression of the allergic and/orasthmatic disease or disorder.

Antibodies of the invention can be used to assay protein levels in abiological sample using classical immunohistological methods known tothose of skill in the art (e.g., see Jalkanen et al., J. Cell. Biol.101:976-985 (1985); Jalkanen et al., J. Cell. Biol. 105:3087-3096(1987)). Other antibody-based methods useful for detecting protein geneexpression include immunoassays, such as the enzyme linked immunosorbentassay (ELISA) and the radioimmunoassay (RIA). Suitable antibody assaylabels are known in the art and include enzyme labels, such as, glucoseoxidase; radioisotopes, such as iodine (125I, 121I), carbon (14C),sulfur (35S), tritium (3H), indium (112In), and technetium (99Tc);luminescent labels, such as luminol; and fluorescent labels, such asfluorescein and rhodamine, and biotin.

One facet of the invention is the detection and diagnosis of a diseaseor disorder associated with aberrant expression of a polypeptide ofinterest in an animal, preferably a mammal and most preferably a human.In one embodiment, diagnosis comprises: a) administering (for example,parenterally, subcutaneously, or intraperitoneally) to a subject aneffective amount of a labeled molecule which specifically binds to thepolypeptide of interest; b) waiting for a time interval following theadministering for permitting the labeled molecule to preferentiallyconcentrate at sites in the subject where the polypeptide is expressed(and for unbound labeled molecule to be cleared to background level); c)determining background level; and d) detecting the labeled molecule inthe subject, such that detection of labeled molecule above thebackground level indicates that the subject has a particular disease ordisorder associated with aberrant expression of the polypeptide ofinterest. Background level can be determined by various methodsincluding, comparing the amount of labeled molecule detected to astandard value previously determined for a particular system.

It will be understood in the art that the size of the subject and theimaging system used will determine the quantity of imaging moiety neededto produce diagnostic images. In the case of a radioisotope moiety, fora human subject, the quantity of radioactivity injected will normallyrange from about 5 to 20 millicuries of 99 mTc. The labeled antibody orantibody fragment will then preferentially accumulate at the location ofcells that contain the specific protein. In vivo tumor imaging isdescribed in S. W. Burchiel et al., “Immunopharmacokinetics ofRadiolabeled Antibodies and Their Fragments.” (Chapter 13 in TumorImaging: The Radiochemical Detection of Cancer, S. W. Burchiel and B. A.Rhodes, eds., Masson Publishing Inc. (1982)).

Depending on several variables, including the type of label used and themode of administration, the time interval following the administrationfor permitting the labeled molecule to preferentially concentrate atsites in the subject and for unbound labeled molecule to be cleared tobackground level is 6 to 48 hours or 6 to 24 hours or 6 to 12 hours. Inanother embodiment the time interval following administration is 5 to 20days or 5 to 10 days.

In an embodiment, monitoring of the disease or disorder is carried outby repeating the method for diagnosing the disease or disease, forexample, one month after initial diagnosis, six months after initialdiagnosis, one year after initial diagnosis, etc.

Presence of the labeled molecule can be detected in the patient usingmethods known in the art for in vivo scanning. These methods depend uponthe type of label used. Skilled artisans will be able to determine theappropriate method for detecting a particular label. Methods and devicesthat may be used in the diagnostic methods of the invention include, butare not limited to, computed tomography (CT), whole body scan such asposition emission tomography (PET), magnetic resonance imaging (MRI),and sonography.

In a specific embodiment, the molecule is labeled with a radioisotopeand is detected in the patient using a radiation responsive surgicalinstrument (Thurston et al., U.S. Pat. No. 5,441,050). In anotherembodiment, the molecule is labeled with a fluorescent compound and isdetected in the patient using a fluorescence responsive scanninginstrument. In another embodiment, the molecule is labeled with apositron emitting metal and is detected in the patent using positronemission-tomography. In yet another embodiment, the molecule is labeledwith a paramagnetic label and is detected in a patient using magneticresonance imaging (MRI).

Kits

The present invention provides kits that can be used in the abovemethods. In one embodiment, a kit comprises an antibody of theinvention, preferably a purified antibody, in one or more containers. Ina specific embodiment, the kits of the present invention contain asubstantially isolated polypeptide comprising an epitope that isspecifically immunoreactive with an antibody included in the kit.Preferably, the kits of the present invention further comprise a controlantibody that does not react with the polypeptide of interest. Inanother specific embodiment, the kits of the present invention contain ameans for detecting the binding of an antibody to a polypeptide ofinterest (e.g., the antibody may be conjugated to a detectable substratesuch as a fluorescent compound, an enzymatic substrate, a radioactivecompound or a luminescent compound, or a second antibody whichrecognizes the first antibody may be conjugated to a detectablesubstrate).

In another specific embodiment of the present invention, the kit is adiagnostic kit for use in screening serum containing antibodies specificagainst proliferative and/or cancerous polynucleotides and polypeptides.Such a kit may include a control antibody that does not react with thepolypeptide of interest. Such a kit may include a substantially isolatedpolypeptide antigen comprising an epitope that is specificallyimmunoreactive with at least one anti-polypeptide antigen antibody.Further, such a kit includes means for detecting the binding of saidantibody to the antigen (e.g., the antibody may be conjugated to afluorescent compound such as fluorescein or rhodamine which can bedetected by flow cytometry). In specific embodiments, the kit mayinclude a recombinantly produced or chemically synthesized polypeptideantigen. The polypeptide antigen of the kit may also be attached to asolid support.

In a more specific embodiment the detecting means of the above-describedkit includes a solid support to which said polypeptide antigen isattached. Such a kit may also include a non-attached reporter-labeledanti-human antibody. In this embodiment, binding of the antibody to thepolypeptide antigen can be detected by binding of the saidreporter-labeled antibody.

In an additional embodiment, the invention includes a diagnostic kit foruse in screening serum containing antigens of the polypeptide of theinvention. The diagnostic kit includes a substantially isolated antibodyspecifically immunoreactive with polypeptide or polynucleotide antigens,and means for detecting the binding of the polynucleotide or polypeptideantigen to the antibody. In one embodiment, the antibody is attached toa solid support. In a specific embodiment, the antibody may be amonoclonal antibody. The detecting means of the kit may include asecond, labeled monoclonal antibody. Alternatively, or in addition, thedetecting means may include a labeled, competing antigen.

In one diagnostic configuration, test serum is reacted with a solidphase reagent having a surface-bound antigen obtained by the methods ofthe present invention. After binding with specific antigen antibody tothe reagent and removing unbound serum components by washing, thereagent is reacted with reporter-labeled anti-human antibody to bindreporter to the reagent in proportion to the amount of boundanti-antigen antibody on the solid support. The reagent is again washedto remove unbound labeled antibody, and the amount of reporterassociated with the reagent is determined. Typically, the reporter is anenzyme that is detected by incubating the solid phase in the presence ofa suitable fluorometric, luminescent or colorimetric substrate (Sigma,St. Louis, Mo.).

The solid surface reagent in the above assay is prepared by knowntechniques for attaching protein material to solid support material,such as polymeric beads, dip sticks, 96-well plate or filter material.These attachment methods generally include non-specific adsorption ofthe protein to the support or covalent attachment of the protein,typically through a free amine group, to a chemically reactive group onthe solid support, such as an activated carboxyl, hydroxyl, or aldehydegroup. Alternatively, streptavidin coated plates can be used inconjunction with biotinylated antigen(s).

Thus, the invention provides an assay system or kit for carrying outthis diagnostic method. The kit generally includes a support withsurface-bound recombinant antigens, and a reporter-labeled anti-humanantibody for detecting surface-bound anti-antigen antibody.

Uses of the Polynucleotides

Each of the polynucleotides identified herein can be used in numerousways as reagents. The following description should be consideredexemplary and utilizes known techniques.

The polynucleotides of the present invention are useful for chromosomeidentification. There exists an ongoing need to identify new chromosomemarkers, since few chromosome marking reagents, based on actual sequencedata (repeat polymorphisms), are presently available. Each sequence isspecifically targeted to and can hybridize with a particular location onan individual human chromosome, thus each polynucleotide of the presentinvention can routinely be used as a chromosome marker using techniquesknown in the art. Table 1B.1, column 8 provides the chromosome locationof some of the polynucleotides of the invention.

Briefly, sequences can be mapped to chromosomes by preparing PCR primers(preferably at least 15 bp (e.g., 15-25 bp) from the sequences shown inSEQ ID NO:X. Primers can optionally be selected using computer analysisso that primers do not span more than one predicted exon in the genomicDNA. These primers are then used for PCR screening of somatic cellhybrids containing individual human chromosomes. Only those hybridscontaining the human gene corresponding to SEQ ID NO:X will yield anamplified fragment.

Similarly, somatic hybrids provide a rapid method of PCR mapping thepolynucleotides to particular chromosomes. Three or more clones can beassigned per day using a single thermal cycler. Moreover,sublocalization of the polynucleotides can be achieved with panels ofspecific chromosome fragments. Other gene mapping strategies that can beused include in situ hybridization, prescreening with labeledflow-sorted chromosomes, preselection by hybridization to constructchromosome specific-cDNA libraries, and computer mapping techniques(See, e.g., Shuler, Trends Biotechnol 16:456-459 (1998) which is herebyincorporated by reference in its entirety).

Precise chromosomal location of the polynucleotides can also be achievedusing fluorescence in situ hybridization (FISH) of a metaphasechromosomal spread. This technique uses polynucleotides as short as 500or 600 bases; however, polynucleotides 2,000 bp are preferred. For areview of this technique, see Verma et al., “Human Chromosomes: a Manualof Basic Techniques,” Pergamon Press, New York (1988).

For chromosome mapping, the polynucleotides can be used individually (tomark a single chromosome or a single site on that chromosome) or inpanels (for marking multiple sites and/or multiple chromosomes).

Thus, the present invention also provides a method for chromosomallocalization which involves (a) preparing PCR primers from thepolynucleotide sequences in Table 1B and/or Table 2 and SEQ ID NO:X and(b) screening somatic cell hybrids containing individual chromosomes.

The polynucleotides of the present invention would likewise be usefulfor radiation hybrid mapping, HAPPY mapping, and long range restrictionmapping. For a review of these techniques and others known in the art,see, e.g. Dear, “Genome Mapping: A Practical Approach,” IRL Press atOxford University Press, London (1997); Aydin, J. Mol. Med. 77:691-694(1999); Hacia et al., Mol. Psychiatry 3:483-492 (1998); Herrick et al.,Chromosome Res. 7:409-423 (1999); Hamilton et al., Methods Cell Biol.62:265-280 (2000); and/or Ott, J. Hered. 90:68-70 (1999) each of whichis hereby incorporated by reference in its entirety.

Once a polynucleotide has been mapped to a precise chromosomal location,the physical position of the polynucleotide can be used in linkageanalysis. Linkage analysis establishes coinheritance between achromosomal location and presentation of a particular disease. (Diseasemapping data are found, for example, in V. McKusick, MendelianInheritance in Man (available on line through Johns Hopkins UniversityWelch Medical Library)). Column 9 of Table 1B.1 provides an OMIMreference identification number of diseases associated with thecytologic band disclosed in column 8 of Table 1B.1, as determined usingtechniques described herein and by reference to Table 5. Assuming 1megabase mapping resolution and one gene per 20 kb, a cDNA preciselylocalized to a chromosomal region associated with the disease could beone of 50-500 potential causative genes.

Thus, once coinheritance is established, differences in a polynucleotideof the invention and the corresponding gene between affected andunaffected individuals can be examined. First, visible structuralalterations in the chromosomes, such as deletions or translocations, areexamined in chromosome spreads or by PCR. If no structural alterationsexist, the presence of point mutations are ascertained. Mutationsobserved in some or all affected individuals, but not in normalindividuals, indicates that the mutation may cause the disease. However,complete sequencing of the polypeptide and the corresponding gene fromseveral normal individuals is required to distinguish the mutation froma polymorphism. If a new polymorphism is identified, this polymorphicpolypeptide can be used for further linkage analysis.

Furthermore, increased or decreased expression of the gene in affectedindividuals as compared to unaffected individuals can be assessed usingthe polynucleotides of the invention. Any of these alterations (alteredexpression, chromosomal rearrangement, or mutation) can be used as adiagnostic or prognostic marker. Diagnostic and prognostic methods, kitsand reagents encompassed by the present invention are briefly describedbelow and more thoroughly elsewhere herein (see e.g., the sectionslabeled “Antibodies”, “Diagnostic Assays”, and “Methods for DetectingDiseases”).

Thus, the invention also provides a diagnostic method useful duringdiagnosis of a disorder, involving measuring the expression level ofpolynucleotides of the present invention in cells or body fluid from anindividual and comparing the measured gene expression level with astandard level of polynucleotide expression level, whereby an increaseor decrease in the gene expression level compared to the standard isindicative of a disorder. Additional non-limiting examples of diagnosticmethods encompassed by the present invention are more thoroughlydescribed elsewhere herein (see, e.g., Example 12).

In still another embodiment, the invention includes a kit for analyzingsamples for the presence of proliferative and/or cancerouspolynucleotides derived from a test subject. In a general embodiment,the kit includes at least one polynucleotide probe containing anucleotide sequence that will specifically hybridize with apolynucleotide of the invention and a suitable container. In a specificembodiment, the kit includes two polynucleotide probes defining aninternal region of the polynucleotide of the invention, where each probehas one strand containing a 31′mer-end internal to the region. In afurther embodiment, the probes may be useful as primers for polymerasechain reaction amplification.

Where a diagnosis of a related disorder, including, for example,diagnosis of a tumor, has already been made according to conventionalmethods, the present invention is useful as a prognostic indicator,whereby patients exhibiting enhanced or depressed polynucleotide of theinvention expression will experience a worse clinical outcome relativeto patients expressing the gene at a level nearer the standard level.

By “measuring the expression level of polynucleotides of the invention”is intended qualitatively or quantitatively measuring or estimating thelevel of the polypeptide of the invention or the level of the mRNAencoding the polypeptide of the invention in a first biological sampleeither directly (e.g., by determining or estimating absolute proteinlevel or mRNA level) or relatively (e.g., by comparing to thepolypeptide level or mRNA level in a second biological sample).Preferably, the polypeptide level or mRNA level in the first biologicalsample is measured or estimated and compared to a standard polypeptidelevel or mRNA level, the standard being taken from a second biologicalsample obtained from an individual not having the related disorder orbeing determined by averaging levels from a population of individualsnot having a related disorder. As will be appreciated in the art, once astandard polypeptide level or mRNA level is known, it can be usedrepeatedly as a standard for comparison.

By “biological sample” is intended any biological sample obtained froman individual, body fluid, cell line, tissue culture, or other sourcethat contains polypeptide of the present invention or the correspondingmRNA. As indicated, biological samples include body fluids (such assemen, lymph, vaginal pool, sera, plasma, urine, synovial fluid andspinal fluid) that contain the polypeptide of the present invention, andtissue sources found to express the polypeptide of the presentinvention. Methods for obtaining tissue biopsies and body fluids frommammals are well known in the art. Where the biological sample is toinclude mRNA, a tissue biopsy is the preferred source.

The method(s) provided above may preferably be applied in a diagnosticmethod and/or kits in which polynucleotides and/or polypeptides of theinvention are attached to a solid support. In one exemplary method, thesupport may be a “gene chip” or a “biological chip” as described in U.S.Pat. Nos. 5,837,832, 5,874,219, and 5,856,174. Further, such a gene chipwith polynucleotides of the invention attached may be used to identifypolymorphisms between the isolated polynucleotide sequences of theinvention, with polynucleotides isolated from a test subject. Theknowledge of such polymorphisms (i.e. their location, as well as, theirexistence) would be beneficial in identifying disease loci for manydisorders, such as for example, in neural disorders, immune systemdisorders, muscular disorders, reproductive disorders, gastrointestinaldisorders, pulmonary disorders, digestive disorders, metabolicdisorders, cardiovascular disorders, renal disorders, proliferativedisorders, and/or cancerous diseases and conditions. Such a method isdescribed in U.S. Pat. Nos. 5,858,659 and 5,856,104. The US patentsreferenced supra are hereby incorporated by reference in their entiretyherein.

The present invention encompasses polynucleotides of the presentinvention that are chemically synthesized, or reproduced as peptidenucleic acids (PNA), or according to other methods known in the art. Theuse of PNAs would serve as the preferred form if the polynucleotides ofthe invention are incorporated onto a solid support, or gene chip. Forthe purposes of the present invention, a peptide nucleic acid (PNA) is apolyamide type of DNA analog and the monomeric units for adenine,guanine, thymine and cytosine are available commercially (PerceptiveBiosystems). Certain components of DNA, such as phosphorus, phosphorusoxides, or deoxyribose derivatives, are not present in PNAs. Asdisclosed by Nielsen et al., Science 254, 1497 (1991); and Egholm etal., Nature 365, 666 (1993), PNAs bind specifically and tightly tocomplementary DNA strands and are not degraded by nucleases. In fact,PNA binds more strongly to DNA than DNA itself does. This is probablybecause there is no electrostatic repulsion between the two strands, andalso the polyamide backbone is more flexible. Because of this, PNA/DNAduplexes bind under a wider range of stringency conditions than DNA/DNAduplexes, making it easier to perform multiplex hybridization. Smallerprobes can be used than with DNA due to the strong binding. In addition,it is more likely that single base mismatches can be determined withPNA/DNA hybridization because a single mismatch in a PNA/DNA 15-merlowers the melting point (T.sub.m) by 8°-20° C., vs. 4°-16° C. for theDNA/DNA 15-mer duplex. Also, the absence of charge groups in PNA meansthat hybridization can be done at low ionic strengths and reducepossible interference by salt during the analysis.

The compounds of the present invention have uses that include, but arenot limited to, detecting cancer in mammals. In particular the inventionis useful during diagnosis of pathological cell proliferative neoplasiaswhich include, but are not limited to: acute myelogenous leukemiasincluding acute monocytic leukemia, acute myeloblastic leukemia, acutepromyelocytic leukemia, acute myelomonocytic leukemia, acuteerythroleukemia, acute megakaryocytic leukemia, and acuteundifferentiated leukemia, etc.; and chronic myelogenous leukemiasincluding chronic myelomonocytic leukemia, chronic granulocyticleukemia, etc. Preferred mammals include monkeys, apes, cats, dogs,cows, pigs, horses, rabbits and humans. Particularly preferred arehumans.

Pathological cell proliferative disorders are often associated withinappropriate activation of proto-oncogenes. (Gelmann, E. P. et al.,“The Etiology of Acute Leukemia: Molecular Genetics and Viral Oncology,”in Neoplastic Diseases of the Blood, Vol 1, Wiernik, P. H. et al. eds.,161-182 (1985)). Neoplasias are now believed to result from thequalitative alteration of a normal cellular gene product, or from thequantitative modification of gene expression by insertion into thechromosome of a viral sequence, by chromosomal translocation of a geneto a more actively transcribed region, or by some other mechanism.(Gelmann et al., supra) It is likely that mutated or altered expressionof specific genes is involved in the pathogenesis of some leukemias,among other tissues and cell types. (Gelmann et al., supra) Indeed, thehuman counterparts of the oncogenes involved in some animal neoplasiashave been amplified or translocated in some cases of human leukemia andcarcinoma. (Gelmann et al., supra)

For example, c-myc expression is highly amplified in the non-lymphocyticleukemia cell line HL-60. When HL-60 cells are chemically induced tostop proliferation, the level of c-myc is found to be downregulated.(International Publication Number WO 91/15580). However, it has beenshown that exposure of HL-60 cells to a DNA construct that iscomplementary to the 5′ end of c-myc or c-myb blocks translation of thecorresponding mRNAs which down-regulates expression of the c-myc orc-myb proteins and causes arrest of cell proliferation anddifferentiation of the treated cells. (International Publication NumberWO 91/15580; Wickstrom et al., Proc. Natl. Acad. Sci. 85:1028 (1988);Anfossi et al., Proc. Natl. Acad. Sci. 86:3379 (1989)). However, theskilled artisan would appreciate the present invention's usefulness isnot be limited to treatment, prevention, and/or prognosis ofproliferative disorders of cells and tissues of hematopoietic origin, inlight of the numerous cells and cell types of varying origins which areknown to exhibit proliferative phenotypes.

In addition to the foregoing, a polynucleotide of the present inventioncan be used to control gene expression through triple helix formation orthrough antisense DNA or RNA. Antisense techniques are discussed, forexample, in Okano, J. Neurochem. 56: 560 (1991); “Oligodeoxynucleotidesas Antisense Inhibitors of Gene Expression, CRC Press, Boca Raton, Fla.(1988). Triple helix formation is discussed in, for instance Lee et al.,Nucleic Acids Research 6: 3073 (1979); Cooney et al., Science 241: 456(1988); and Dervan et al., Science 251: 1360 (1991). Both methods relyon binding of the polynucleotide to a complementary DNA or RNA. Forthese techniques, preferred polynucleotides are usually oligonucleotides20 to 40 bases in length and complementary to either the region of thegene involved in transcription (triple helix—see Lee et al., Nucl. AcidsRes. 6:3073 (1979); Cooney et al., Science 241:456 (1988); and Dervan etal., Science 251:1360 (1991)) or to the mRNA itself (antisense—Okano, J.Neurochem. 56:560 (1991); Oligodeoxy-nucleotides as Antisense Inhibitorsof Gene Expression, CRC Press, Boca Raton, Fla. (1988)). Triple helixformation optimally results in a shut-off of RNA transcription from DNA,while antisense RNA hybridization blocks translation of an mRNA moleculeinto polypeptide. The oligonucleotide described above can also bedelivered to cells such that the antisense RNA or DNA may be expressedin vivo to inhibit production of polypeptide of the present inventionantigens. Both techniques are effective in model systems, and theinformation disclosed herein can be used to design antisense or triplehelix polynucleotides in an effort to treat disease, and in particular,for the treatment of proliferative diseases and/or conditions.Non-limiting antisense and triple helix methods encompassed by thepresent invention are more thoroughly described elsewhere herein (see,e.g., the section labeled “Antisense and Ribozyme (Antagonists)”).

Polynucleotides of the present invention are also useful in genetherapy. One goal of gene therapy is to insert a normal gene into anorganism having a defective gene, in an effort to correct the geneticdefect. The polynucleotides disclosed in the present invention offer ameans of targeting such genetic defects in a highly accurate manner.Another goal is to insert a new gene that was not present in the hostgenome, thereby producing a new trait in the host cell. Additionalnon-limiting examples of gene therapy methods encompassed by the presentinvention are more thoroughly described elsewhere herein (see, e.g., thesections labeled “Gene Therapy Methods”, and Examples 16, 17 and 18).

The polynucleotides are also useful for identifying individuals fromminute biological samples. The United States military, for example, isconsidering the use of restriction fragment length polymorphism (RFLP)for identification of its personnel. In this technique, an individual'sgenomic DNA is digested with one or more restriction enzymes, and probedon a Southern blot to yield unique bands for identifying personnel. Thismethod does not suffer from the current limitations of “Dog Tags” whichcan be lost, switched, or stolen, making positive identificationdifficult. The polynucleotides of the present invention can be used asadditional DNA markers for RFLP.

The polynucleotides of the present invention can also be used as analternative to RFLP, by determining the actual base-by-base DNA sequenceof selected portions of an individual's genome. These sequences can beused to prepare PCR primers for amplifying and isolating such selectedDNA, which can then be sequenced. Using this technique, individuals canbe identified because each individual will have a unique set of DNAsequences. Once an unique ID database is established for an individual,positive identification of that individual, living or dead, can be madefrom extremely small tissue samples.

Forensic biology also benefits from using DNA-based identificationtechniques as disclosed herein. DNA sequences taken from very smallbiological samples such as tissues, e.g., hair or skin, or body fluids,e.g., blood, saliva, semen, synovial fluid, amniotic fluid, breast milk,lymph, pulmonary sputum or surfactant, urine, fecal matter, etc., can beamplified using PCR. In one prior art technique, gene sequencesamplified from polymorphic loci, such as DQa class II HLA gene, are usedin forensic biology to identify individuals. (Erlich, H., PCRTechnology, Freeman and Co. (1992)). Once these specific polymorphicloci are amplified, they are digested with one or more restrictionenzymes, yielding an identifying set of bands on a Southern blot probedwith DNA corresponding to the DQa class II HLA gene. Similarly,polynucleotides of the present invention can be used as polymorphicmarkers for forensic purposes.

There is also a need for reagents capable of identifying the source of aparticular tissue. Such need arises, for example, in forensics whenpresented with tissue of unknown origin. Appropriate reagents cancomprise, for example, DNA probes or primers prepared from the sequencesof the present invention, specific to tissues, including but not limitedto those shown in Table 1B. Panels of such reagents can identify tissueby species and/or by organ type. In a similar fashion, these reagentscan be used to screen tissue cultures for contamination. Additionalnon-limiting examples of such uses are further described herein.

The polynucleotides of the present invention are also useful ashybridization probes for differential identification of the tissue(s) orcell type(s) present in a biological sample. Similarly, polypeptides andantibodies directed to polypeptides of the present invention are usefulto provide immunological probes for differential identification of thetissue(s) (e.g., immunohistochemistry assays) or cell type(s) (e.g.,immunocytochemistry assays). In addition, for a number of disorders ofthe above tissues or cells, significantly higher or lower levels of geneexpression of the polynucleotides/polypeptides of the present inventionmay be detected in certain tissues (e.g., tissues expressingpolypeptides and/or polynucleotides of the present invention, forexample, those disclosed in column 7 of Table 1B.1, and/or cancerousand/or wounded tissues) or bodily fluids (e.g., semen, lymph, vaginalpool, serum, plasma, urine, synovial fluid or spinal fluid) taken froman individual having such a disorder, relative to a “standard” geneexpression level, i.e., the expression level in healthy tissue from anindividual not having the disorder.

Thus, the invention provides a diagnostic method of a disorder, whichinvolves: (a) assaying gene expression level in cells or body fluid ofan individual; (b) comparing the gene expression level with a standardgene expression level, whereby an increase or decrease in the assayedgene expression level compared to the standard expression level isindicative of a disorder.

In the very least, the polynucleotides of the present invention can beused as molecular weight markers on Southern gels, as diagnostic probesfor the presence of a specific mRNA in a particular cell type, as aprobe to “subtract-out” known sequences in the process of discoveringnovel polynucleotides, for selecting and making oligomers for attachmentto a “gene chip” or other support, to raise anti-DNA antibodies usingDNA immunization techniques, and as an antigen to elicit an immuneresponse.

Uses of the Polypeptides

Each of the polypeptides identified herein can be used in numerous ways.The following description should be considered exemplary and utilizesknown techniques.

Polypeptides and antibodies directed to polypeptides of the presentinvention are useful to provide immunological probes for differentialidentification of the tissue(s) (e.g., immunohistochemistry assays suchas, for example, ABC immunoperoxidase (Hsu et al., J. Histochem.Cytochem. 29:577-580 (1981)) or cell type(s) (e.g., immunocytochemistryassays).

Antibodies can be used to assay levels of polypeptides encoded bypolynucleotides of the invention in a biological sample using classicalimmunohistological methods known to those of skill in the art (e.g., seeJalkanen, et al., J. Cell. Biol. 101:976-985 (1985); Jalkanen, et al.,J. Cell. Biol. 105:3087-3096 (1987)). Other antibody-based methodsuseful for detecting protein gene expression include immunoassays, suchas the enzyme linked immunosorbent assay (ELISA) and theradioimmunoassay (RIA). Suitable antibody assay labels are known in theart and include enzyme labels, such as, glucose oxidase; radioisotopes,such as iodine (¹³¹I, ¹²⁵I, ¹²³I, ¹²¹I), carbon (¹⁴C), sulfur (³⁵S),tritium (³H), indium (^(115m)In, ^(113m)In, ¹¹²In, ¹¹¹In), andtechnetium (⁹⁹Tc, ^(99m)Tc), thallium (²⁰¹Ti), gallium (⁶⁸Ga, ⁶⁷Ga),palladium (¹⁰³Pd), molybdenum (⁹⁹Mo), xenon (¹³³Xe), fluorine (¹⁸F),¹⁵³Sm, ¹⁷⁷Lu, ¹⁵⁹Gd, ¹⁴⁹Pm, ¹⁴⁰La, ¹⁷⁵Yb, ¹⁶⁶Ho, ⁹⁰Y, ⁴⁷Sc, ¹⁸⁶Re,¹⁸⁸Re, ¹⁴²Pr, ¹⁰⁵Rh, ⁹⁷Ru; luminescent labels, such as luminol; andfluorescent labels, such as fluorescein and rhodamine, and biotin.

In addition to assaying levels of polypeptide of the present inventionin a biological sample, proteins can also be detected in vivo byimaging. Antibody labels or markers for in vivo imaging of proteininclude those detectable by X-radiography, NMR or ESR. ForX-radiography, suitable labels include radioisotopes such as barium orcesium, which emit detectable radiation but are not overtly harmful tothe subject. Suitable markers for NMR and ESR include those with adetectable characteristic spin, such as deuterium, which may beincorporated into the antibody by labeling of nutrients for the relevanthybridoma.

A protein-specific antibody or antibody fragment which has been labeledwith an appropriate detectable imaging moiety, such as a radioisotope(for example, ¹³¹I, ¹¹²In, ^(99m)Tc, (¹³¹I, ¹²⁵I, ¹²³I, ¹²¹I), carbon(¹⁴C), sulfur (³⁵S), tritium (³H), indium (^(115m)In, ^(113m)In, ¹¹²In,¹¹¹In), and technetium (⁹⁹Tc, ^(99m)Tc), thallium (²⁰¹Ti), gallium(⁶⁸Ga, ⁶⁷Ga), palladium (¹⁰³Pd), molybdenum (⁹⁹Mo), xenon (¹³³Xe),fluorine (¹⁸F, ¹⁵³Sm, ¹⁷⁷Lu, ¹⁵⁹Gd, ¹⁴⁹Pm, ¹⁴⁰La, ¹⁷⁵Yb, ¹⁶⁶Ho, ⁹⁰Y,⁴⁷Sc, ¹⁸⁶Re, ¹⁸⁸Re, ¹⁴²Pr, ¹⁰⁵Rh, ⁹⁷Ru), a radio-opaque substance, or amaterial detectable by nuclear magnetic resonance, is introduced (forexample, parenterally, subcutaneously or intraperitoneally) into themammal to be examined for immune system disorder. It will be understoodin the art that the size of the subject and the imaging system used willdetermine the quantity of imaging moiety needed to produce diagnosticimages. In the case of a radioisotope moiety, for a human subject, thequantity of radioactivity injected will normally range from about 5 to20 millicuries of ^(99m)Tc. The labeled antibody or antibody fragmentwill then preferentially accumulate at the location of cells thatexpress the polypeptide encoded by a polynucleotide of the invention. Invivo tumor imaging is described in S. W. Burchiel et al.,“Immunopharmacokinetics of Radiolabeled Antibodies and Their Fragments”(Chapter 13 in Tumor Imaging: The Radiochemical Detection of Cancer, S.W. Burchiel and B. A. Rhodes, eds., Masson Publishing Inc. (1982)).

In one embodiment, the invention provides a method for the specificdelivery of compositions of the invention to cells by administeringpolypeptides of the invention (e.g., polypeptides encoded bypolynucleotides of the invention and/or antibodies) that are associatedwith heterologous polypeptides or nucleic acids. In one example, theinvention provides a method for delivering a therapeutic protein intothe targeted cell. In another example, the invention provides a methodfor delivering a single stranded nucleic acid (e.g., antisense orribozymes) or double stranded nucleic acid (e.g., DNA that can integrateinto the cell's genome or replicate episomally and that can betranscribed) into the targeted cell.

In another embodiment, the invention provides a method for the specificdestruction of cells (e.g., the destruction of tumor cells) byadministering polypeptides of the invention in association with toxinsor cytotoxic prodrugs.

By “toxin” is meant one or more compounds that bind and activateendogenous cytotoxic effector systems, radioisotopes, holotoxins,modified toxins, catalytic subunits of toxins, or any molecules orenzymes not normally present in or on the surface of a cell that underdefined conditions cause the cell's death. Toxins that may be usedaccording to the methods of the invention include, but are not limitedto, radioisotopes known in the art, compounds such as, for example,antibodies (or complement fixing containing portions thereof) that bindan inherent or induced endogenous cytotoxic effector system, thymidinekinase, endonuclease, RNAse, alpha toxin, ricin, abrin, Pseudomonasexotoxin A, diphtheria toxin, saporin, momordin, gelonin, pokeweedantiviral protein, alpha-sarcin and cholera toxin. “Toxin” also includesa cytostatic or cytocidal agent, a therapeutic agent or a radioactivemetal ion, e.g., alpha-emitters such as, for example, ²¹³Bi, or otherradioisotopes such as, for example, ¹⁰³Pd, ¹³³Xe, ¹³¹I, ⁶⁸Ge, ⁵⁷Co,⁶⁵Zn, ⁸⁵Sr, ³²P, ³⁵S, ⁹⁰Y, ¹⁵³Sm, ¹⁵³Gd, ¹⁶⁹Yb, ⁵¹Cr, ⁵⁴Mn, ⁷⁵Se, ¹¹³Sn,⁹⁰Yttrium, ¹¹⁷Tin, ¹⁸⁶Rhenium, ¹⁶⁶Holmium, and ¹⁸⁸Rhenium; luminescentlabels, such as luminol; and fluorescent labels, such as fluorescein andrhodamine, and biotin. In a specific embodiment, the invention providesa method for the specific destruction of cells (e.g., the destruction oftumor cells) by administering polypeptides of the invention orantibodies of the invention in association with the radioisotope ⁹⁰Y. Inanother specific embodiment, the invention provides a method for thespecific destruction of cells (e.g., the destruction of tumor cells) byadministering polypeptides of the invention or antibodies of theinvention in association with the radioisotope ¹¹¹In. In a furtherspecific embodiment, the invention provides a method for the specificdestruction of cells (e.g., the destruction of tumor cells) byadministering polypeptides of the invention or antibodies of theinvention in association with the radioisotope ¹³¹I.

Techniques known in the art may be applied to label polypeptides of theinvention (including antibodies). Such techniques include, but are notlimited to, the use of bifunctional conjugating agents (see e.g., U.S.Pat. Nos. 5,756,065; 5,714,631; 5,696,239; 5,652,361; 5,505,931;5,489,425; 5,435,990; 5,428,139; 5,342,604; 5,274,119; 4,994,560; and5,808,003; the contents of each of which are hereby incorporated byreference in its entirety).

Thus, the invention provides a diagnostic method of a disorder, whichinvolves (a) assaying the expression level of a polypeptide of thepresent invention in cells or body fluid of an individual; and (b)comparing the assayed polypeptide expression level with a standardpolypeptide expression level, whereby an increase or decrease in theassayed polypeptide expression level compared to the standard expressionlevel is indicative of a disorder. With respect to cancer, the presenceof a relatively high amount of transcript in biopsied tissue from anindividual may indicate a predisposition for the development of thedisease, or may provide a means for detecting the disease prior to theappearance of actual clinical symptoms. A more definitive diagnosis ofthis type may allow health professionals to employ preventative measuresor aggressive treatment earlier thereby preventing the development orfurther progression of the cancer.

Moreover, polypeptides of the present invention can be used to treat orprevent diseases or conditions such as, for example, neural disorders,immune system disorders, muscular disorders, reproductive disorders,gastrointestinal disorders, pulmonary disorders, cardiovasculardisorders, renal disorders, proliferative disorders, and/or cancerousdiseases and conditions. For example, patients can be administered apolypeptide of the present invention in an effort to replace absent ordecreased levels of the polypeptide (e.g., insulin), to supplementabsent or decreased levels of a different polypeptide (e.g., hemoglobinS for hemoglobin B, SOD, catalase, DNA repair proteins), to inhibit theactivity of a polypeptide (e.g., an oncogene or tumor supressor), toactivate the activity of a polypeptide (e.g., by binding to a receptor),to reduce the activity of a membrane bound receptor by competing with itfor free ligand (e.g., soluble TNF receptors used in reducinginflammation), or to bring about a desired response (e.g., blood vesselgrowth inhibition, enhancement of the immune response to proliferativecells or tissues).

Similarly, antibodies directed to a polypeptide of the present inventioncan also be used to treat disease (as described supra, and elsewhereherein). For example, administration of an antibody directed to apolypeptide of the present invention can bind, and/or neutralize thepolypeptide, and/or reduce overproduction of the polypeptide. Similarly,administration of an antibody can activate the polypeptide, such as bybinding to a polypeptide bound to a membrane (receptor).

At the very least, the polypeptides of the present invention can be usedas molecular weight markers on SDS-PAGE gels or on molecular sieve gelfiltration columns using methods well known to those of skill in theart. Polypeptides can also be used to raise antibodies, which in turnare used to measure protein expression from a recombinant cell, as a wayof assessing transformation of the host cell. Moreover, the polypeptidesof the present invention can be used to test the biological activitiesdescribed herein.

Diagnostic Assays

The compounds of the present invention are useful for diagnosis,treatment, prevention and/or prognosis of various disorders in mammals,preferably humans. Such disorders include, but are not limited to, thoserelated to biological activities described in Table 1D and, also asdescribed herein under the section heading “Biological Activities”.

For a number of disorders, substantially altered (increased ordecreased) levels of gene expression can be detected in tissues, cellsor bodily fluids (e.g., sera, plasma, urine, semen, synovial fluid orspinal fluid) taken from an individual having such a disorder, relativeto a “standard” gene expression level, that is, the expression level intissues or bodily fluids from an individual not having the disorder.Thus, the invention provides a diagnostic method useful during diagnosisof a disorder, which involves measuring the expression level of the geneencoding the polypeptide in tissues, cells or body fluid from anindividual and comparing the measured gene expression level with astandard gene expression level, whereby an increase or decrease in thegene expression level(s) compared to the standard is indicative of adisorder. These diagnostic assays may be performed in vivo or in vitro,such as, for example, on blood samples, biopsy tissue or autopsy tissue.

The present invention is also useful as a prognostic indicator, wherebypatients exhibiting enhanced or depressed gene expression willexperience a worse clinical outcome relative to patients expressing thegene at a level nearer the standard level.

In certain embodiments, a polypeptide of the invention, orpolynucleotides, antibodies, agonists, or antagonists corresponding tothat polypeptide, may be used to diagnose and/or prognosticate diseasesand/or disorders associated with the tissue(s) in which the polypeptideof the invention is expressed, including one, two, three, four, five, ormore tissues disclosed in Table 1B.2, column 5 (Tissue DistributionLibrary Code).

By “assaying the expression level of the gene encoding the polypeptide”is intended qualitatively or quantitatively measuring or estimating thelevel of the polypeptide of the invention or the level of the mRNAencoding the polypeptide of the invention in a first biological sampleeither directly (e.g., by determining or estimating absolute proteinlevel or mRNA level) or relatively (e.g., by comparing to thepolypeptide level or mRNA level in a second biological sample).Preferably, the polypeptide expression level or mRNA level in the firstbiological sample is measured or estimated and compared to a standardpolypeptide level or mRNA level, the standard being taken from a secondbiological sample obtained from an individual not having the disorder orbeing determined by averaging levels from a population of individualsnot having the disorder. As will be appreciated in the art, once astandard polypeptide level or mRNA level is known, it can be usedrepeatedly as a standard for comparison.

By “biological sample” is intended any biological sample obtained froman individual, cell line, tissue culture, or other source containingpolypeptides of the invention (including portions thereof) or mRNA. Asindicated, biological samples include body fluids (such as sera, plasma,urine, synovial fluid and spinal fluid) and tissue sources found toexpress the full length or fragments thereof of a polypeptide or mRNA.Methods for obtaining tissue biopsies and body fluids from mammals arewell known in the art. Where the biological sample is to include mRNA, atissue biopsy is the preferred source.

Total cellular RNA can be isolated from a biological sample using anysuitable technique such as the single-stepguanidinium-thiocyanate-phenol-chloroform method described inChomczynski and Sacchi, Anal. Biochem. 162:156-159 (1987). Levels ofmRNA encoding the polypeptides of the invention are then assayed usingany appropriate method. These include Northern blot analysis, S1nuclease mapping, the polymerase chain reaction (PCR), reversetranscription in combination with the polymerase chain reaction(RT-PCR), and reverse transcription in combination with the ligase chainreaction (RT-LCR).

The present invention also relates to diagnostic assays such asquantitative and diagnostic assays for detecting levels of polypeptidesof the invention, in a biological sample (e.g., cells and tissues),including determination of normal and abnormal levels of polypeptides.Thus, for instance, a diagnostic assay in accordance with the inventionfor detecting over-expression of polypeptides of the invention comparedto normal control tissue samples may be used to detect the presence oftumors. Assay techniques that can be used to determine levels of apolypeptide, such as a polypeptide of the present invention in a samplederived from a host are well-known to those of skill in the art. Suchassay methods include radioimmunoassays, competitive-binding assays,Western Blot analysis and ELISA assays. Assaying polypeptide levels in abiological sample can occur using any art-known method.

Assaying polypeptide levels in a biological sample can occur usingantibody-based techniques. For example, polypeptide expression intissues can be studied with classical immunohistological methods(Jalkanen et al., J. Cell. Biol. 101:976-985 (1985); Jalkanen, M., etal., J. Cell. Biol. 105:3087-3096 (1987)). Other antibody-based methodsuseful for detecting polypeptide gene expression include immunoassays,such as the enzyme linked immunosorbent assay (ELISA) and theradioimmunoassay (RIA). Suitable antibody assay labels are known in theart and include enzyme labels, such as, glucose oxidase, andradioisotopes, such as iodine (¹²⁵I, ¹²¹I), carbon (¹⁴C), sulfur (³⁵S),tritium (³H), indium (¹¹²In), and technetium (^(99m)Tc), and fluorescentlabels, such as fluorescein and rhodamine, and biotin.

The tissue or cell type to be analyzed will generally include those thatare known, or suspected, to express the gene of inteest (such as, forexample, cancer). The protein isolation methods employed herein may, forexample, be such as those described in Harlow and Lane (Harlow, E. andLane, D., 1988, “Antibodies: A Laboratory Manual”, Cold Spring HarborLaboratory Press, Cold Spring Harbor, N.Y.), which is incorporatedherein by reference in its entirety. The isolated cells can be derivedfrom cell culture or from a patient. The analysis of cells taken fromculture may be a necessary step in the assessment of cells that could beused as part of a cell-based gene therapy technique or, alternatively,to test the effect of compounds on the expression of the gene.

For example, antibodies, or fragments of antibodies, such as thosedescribed herein, may be used to quantitatively or qualitatively detectthe presence of gene products or conserved variants or peptide fragmentsthereof. This can be accomplished, for example, by immunofluorescencetechniques employing a fluorescently labeled antibody coupled with lightmicroscopic, flow cytometric, or fluorimetric detection.

In a preferred embodiment, antibodies, or fragments of antibodiesdirected to any one or all of the predicted epitope domains of thepolypeptides of the invention (shown in Table 1B) may be used toquantitatively or qualitatively detect the presence of gene products orconserved variants or peptide fragments thereof. This can beaccomplished, for example, by immunofluorescence techniques employing afluorescently labeled antibody coupled with light microscopic, flowcytometric, or fluorimetric detection.

In an additional preferred embodiment, antibodies, or fragments ofantibodies directed to a conformational epitope of a polypeptide of theinvention may be used to quantitatively or qualitatively detect thepresence of gene products or conserved variants or peptide fragmentsthereof. This can be accomplished, for example, by immunofluorescencetechniques employing a fluorescently labeled antibody coupled with lightmicroscopic, flow cytometric, or fluorimetric detection.

The antibodies (or fragments thereof), and/or polypeptides of thepresent invention may, additionally, be employed histologically, as inimmunofluorescence, immunoelectron microscopy or non-immunologicalassays, for in situ detection of gene products or conserved variants orpeptide fragments thereof. In situ detection may be accomplished byremoving a histological specimen from a patient, and applying thereto alabeled antibody or polypeptide of the present invention. The antibody(or fragment thereof) or polypeptide is preferably applied by overlayingthe labeled antibody (or fragment) onto a biological sample. Through theuse of such a procedure, it is possible to determine not only thepresence of the gene product, or conserved variants or peptidefragments, or polypeptide binding, but also its distribution in theexamined tissue. Using the present invention, those of ordinary skillwill readily perceive that any of a wide variety of histological methods(such as staining procedures) can be modified in order to achieve suchin situ detection.

Immunoassays and non-immunoassays for gene products or conservedvariants or peptide fragments thereof will typically comprise incubatinga sample, such as a biological fluid, a tissue extract, freshlyharvested cells, or lysates of cells which have been incubated in cellculture, in the presence of a detectably labeled antibody capable ofbinding gene products or conserved variants or peptide fragmentsthereof, and detecting the bound antibody by any of a number oftechniques well-known in the art.

The biological sample may be brought in contact with and immobilizedonto a solid phase support or carrier such as nitrocellulose, or othersolid support that is capable of immobilizing cells, cell particles orsoluble proteins. The support may then be washed with suitable buffersfollowed by treatment with the detectably labeled antibody or detectablepolypeptide of the invention. The solid phase support may then be washedwith the buffer a second time to remove unbound antibody or polypeptide.Optionally the antibody is subsequently labeled. The amount of boundlabel on solid support may then be detected by conventional means.

By “solid phase support or carrier” is intended any support capable ofbinding an antigen or an antibody. Well-known supports or carriersinclude glass, polystyrene, polypropylene, polyethylene, dextran, nylon,amylases, natural and modified celluloses, polyacrylamides, gabbros, andmagnetite. The nature of the carrier can be either soluble to someextent or insoluble for the purposes of the present invention. Thesupport material may have virtually any possible structuralconfiguration so long as the coupled molecule is capable of binding toan antigen or antibody. Thus, the support configuration may bespherical, as in a bead, or cylindrical, as in the inside surface of atest tube, or the external surface of a rod. Alternatively, the surfacemay be flat such as a sheet, test strip, etc. Preferred supports includepolystyrene beads. Those skilled in the art will know many othersuitable carriers for binding antibody or antigen, or will be able toascertain the same by use of routine experimentation.

The binding activity of a given lot of antibody or antigen polypeptidemay be determined according to well-known methods. Those skilled in theart will be able to determine operative and optimal assay conditions foreach determination by employing routine experimentation.

In addition to assaying polypeptide levels or polynucleotide levels in abiological sample obtained from an individual, polypeptide orpolynucleotide can also be detected in vivo by imaging. For example, inone embodiment of the invention, polypeptides and/or antibodies of theinvention are used to image diseased cells, such as neoplasms. Inanother embodiment, polynucleotides of the invention (e.g.,polynucleotides complementary to all or a portion of an mRNA) and/orantibodies (e.g., antibodies directed to any one or a combination of theepitopes of a polypeptide of the invention, antibodies directed to aconformational epitope of a polypeptide of the invention, or antibodiesdirected to the full length polypeptide expressed on the cell surface ofa mammalian cell) are used to image diseased or neoplastic cells.

Antibody labels or markers for in vivo imaging of polypeptides of theinvention include those detectable by X-radiography, NMR, MRI, CAT-scansor ESR. For X-radiography, suitable labels include radioisotopes such asbarium or cesium, which emit detectable radiation but are not overtlyharmful to the subject. Suitable markers for NMR and ESR include thosewith a detectable characteristic spin, such as deuterium, which may beincorporated into the antibody by labeling of nutrients for the relevanthybridoma. Where in vivo imaging is used to detect enhanced levels ofpolypeptides for diagnosis in humans, it may be preferable to use humanantibodies or “humanized” chimeric monoclonal antibodies. Suchantibodies can be produced using techniques described herein orotherwise known in the art. For example methods for producing chimericantibodies are known in the art. See, for review, Morrison, Science229:1202 (1985); Oi et al., BioTechniques 4:214 (1986); Cabilly et al.,U.S. Pat. No. 4,816,567; Taniguchi et al., EP 171496; Morrison et al.,EP 173494; Neuberger et al., WO 8601533; Robinson et al., WO 8702671;Boulianne et al., Nature 312:643 (1984); Neuberger et al., Nature314:268 (1985).

Additionally, any polypeptides of the invention whose presence can bedetected can be administered. For example, polypeptides of the inventionlabeled with a radio-opaque or other appropriate compound can beadministered and visualized in vivo, as discussed, above for labeledantibodies. Further, such polypeptides can be utilized for in vitrodiagnostic procedures.

A polypeptide-specific antibody or antibody fragment that has beenlabeled with an appropriate detectable imaging moiety, such as aradioisotope (for example, ¹³¹I, ¹¹²In, ^(99m)Tc), a radio-opaquesubstance, or a material detectable by nuclear magnetic resonance, isintroduced (for example, parenterally, subcutaneously orintraperitoneally) into the mammal to be examined for a disorder. Itwill be understood in the art that the size of the subject and theimaging system used will determine the quantity of imaging moiety neededto produce diagnostic images. In the case of a radioisotope moiety, fora human subject, the quantity of radioactivity injected will normallyrange from about 5 to 20 millicuries of ^(99m)Tc. The labeled antibodyor antibody fragment will then preferentially accumulate at the locationof cells that contain the antigenic protein. In vivo tumor imaging isdescribed in S. W. Burchiel et al., “Immunopharmacokinetics ofRadiolabeled Antibodies and Their Fragments” (Chapter 13 in TumorImaging: The Radiochemical Detection of Cancer, S. W. Burchiel and B. A.Rhodes, eds., Masson Publishing Inc. (1982)).

With respect to antibodies, one of the ways in which an antibody of thepresent invention can be detectably labeled is by linking the same to areporter enzyme and using the linked product in an enzyme immunoassay(EIA) (Voller, A., “The Enzyme Linked Immunosorbent Assay (ELISA)”,1978, Diagnostic Horizons 2:1-7, Microbiological Associates QuarterlyPublication, Walkersville, Md.); Voller et al., J. Clin. Pathol.31:507-520 (1978); Butler, J. E., Meth. Enzymol. 73:482-523 (1981);Maggio, E. (ed.), 1980, Enzyme Immunoassay, CRC Press, Boca Raton, Fla.;Ishikawa, E. et al., (eds.), 1981, Enzyme Immunoassay, Kgaku Shoin,Tokyo). The reporter enzyme that is bound to the antibody will reactwith an appropriate substrate, preferably a chromogenic substrate, insuch a manner as to produce a chemical moiety which can be detected, forexample, by spectrophotometric, fluorimetric or by visual means.Reporter enzymes which can be used to detectably label the antibodyinclude, but are not limited to, malate dehydrogenase, staphylococcalnuclease, delta-5-steroid isomerase, yeast alcohol dehydrogenase,alpha-glycerophosphate, dehydrogenase, triose phosphate isomerase,horseradish peroxidase, alkaline phosphatase, asparaginase, glucoseoxidase, beta-galactosidase, ribonuclease, urease, catalase,glucose-6-phosphate dehydrogenase, glucoamylase andacetylcholinesterase. Additionally, the detection can be accomplished bycolorimetric methods that employ a chromogenic substrate for thereporter enzyme. Detection may also be accomplished by visual comparisonof the extent of enzymatic reaction of a substrate in comparison withsimilarly prepared standards.

Detection may also be accomplished using any of a variety of otherimmunoassays. For example, by radioactively labeling the antibodies orantibody fragments, it is possible to detect polypeptides through theuse of a radioimmunoassay (RIA) (see, for example, Weintraub, B.,Principles of Radioimmunoassays, Seventh Training Course on RadioligandAssay Techniques, The Endocrine Society, March, 1986, which isincorporated by reference herein). The radioactive isotope can bedetected by means including, but not limited to, a gamma counter, ascintillation counter, or autoradiography.

It is also possible to label the antibody with a fluorescent compound.When the fluorescently labeled antibody is exposed to light of theproper wave length, its presence can then be detected due tofluorescence. Among the most commonly used fluorescent labelingcompounds are fluorescein isothiocyanate, rhodamine, phycoerythrin,phycocyanin, allophycocyanin, ophthaldehyde and fluorescamine.

The antibody can also be detectably labeled using fluorescence emittingmetals such as ¹⁵²Eu, or others of the lanthanide series. These metalscan be attached to the antibody using such metal chelating groups asdiethylenetriaminepentacetic acid (DTPA) or ethylenediaminetetraaceticacid (EDTA).

The antibody also can be detectably labeled by coupling it to achemiluminescent compound. The presence of the chemiluminescent-taggedantibody is then determined by detecting the presence of luminescencethat arises during the course of a chemical reaction. Examples ofparticularly useful chemiluminescent labeling compounds are luminol,isoluminol, theromatic acridinium ester, imidazole, acridinium salt, andoxalate ester.

Likewise, a bioluminescent compound may be used to label the antibody ofthe present invention. Bioluminescence is a type of chemiluminescencefound in biological systems in, which a catalytic protein increases theefficiency of the chemiluminescent reaction. The presence of abioluminescent protein is determined by detecting the presence ofluminescence. Important bioluminescent compounds for purposes oflabeling are luciferin, luciferase and aequorin.

Methods for Detecting Diseases

In general, a disease may be detected in a patient based on the presenceof one or more proteins of the invention and/or polynucleotides encodingsuch proteins in a biological sample (for example, blood, sera, urine,and/or tumor biopsies) obtained from the patient. In other words, suchproteins may be used as markers to indicate the presence or absence of adisease or disorder, including cancer and/or as described elsewhereherein. In addition, such proteins may be useful for the detection ofother diseases and cancers. The binding agents provided herein generallypermit detection of the level of antigen that binds to the agent in thebiological sample. Polynucleotide primers and probes may be used todetect the level of mRNA encoding polypeptides of the invention, whichis also indicative of the presence or absence of a disease or disorder,including cancer. In general, polypeptides of the invention should bepresent at a level that is at least three fold higher in diseased tissuethan in normal tissue.

There are a variety of assay formats known to those of ordinary skill inthe art for using a binding agent to detect polypeptide markers in asample. See, e.g., Harlow and Lane, supra. In general, the presence orabsence of a disease in a patient may be determined by (a) contacting abiological sample obtained from a patient with a binding agent; (b)detecting in the sample a level of polypeptide that binds to the bindingagent; and (c) comparing the level of polypeptide with a predeterminedcut-off value.

In a preferred embodiment, the assay involves the use of a bindingagent(s) immobilized on a solid support to bind to and remove thepolypeptide of the invention from the remainder of the sample. The boundpolypeptide may then be detected using a detection reagent that containsa reporter group and specifically binds to the binding agent/polypeptidecomplex. Such detection reagents may comprise, for example, a bindingagent that specifically binds to the polypeptide or an antibody or otheragent that specifically binds to the binding agent, such as ananti-immunoglobulin, protein G, protein A or a lectin. Alternatively, acompetitive assay may be utilized, in which a polypeptide is labeledwith a reporter group and allowed to bind to the immobilized bindingagent after incubation of the binding agent with the sample. The extentto which components of the sample inhibit the binding of the labeledpolypeptide to the binding agent is indicative of the reactivity of thesample with the immobilized binding agent. Suitable polypeptides for usewithin such assays include polypeptides of the invention and portionsthereof, or antibodies, to which the binding agent binds, as describedabove.

The solid support may be any material known to those of skill in the artto which polypeptides of the invention may be attached. For example, thesolid support may be a test well in a microtiter plate or anitrocellulose or other suitable membrane. Alternatively, the supportmay be a bead or disc, such as glass fiberglass, latex or a plasticmaterial such as polystyrene or polyvinylchloride. The support may alsobe a magnetic particle or a fiber optic sensor, such as those disclosed,for example, in U.S. Pat. No. 5,359,681. The binding agent may beimmobilized on the solid support using a variety of techniques known tothose of skill in the art, which are amply described in the patent andscientific literature. In the context of the present invention, the term“immobilization” refers to both noncovalent association, such asadsorption, and covalent attachment (which may be a direct linkagebetween the agent and functional groups on the support or may be alinkage by way of a cross-linking agent). Immobilization by adsorptionto a well in a microtiter plate or to a membrane is preferred. In suchcases, adsorption may be achieved by contacting the binding agent, in asuitable buffer, with the solid support for the suitable amount of time.The contact time varies with temperature, but is typically between about1 hour and about 1 day. In general, contacting a well of plasticmicrotiter plate (such as polystyrene or polyvinylchloride) with anamount of binding agent ranging from about 10 ng to about 10 ug, andpreferably about 100 ng to about 1 ug, is sufficient to immobilize anadequate amount of binding agent.

Covalent attachment of binding agent to a solid support may generally beachieved by first reacting the support with a bifunctional reagent thatwill react with both the support and a functional group, such as ahydroxyl or amino group, on the binding agent. For example, the bindingagent may be covalently attached to supports having an appropriatepolymer coating using benzoquinone or by condensation of an aldehydegroup on the support with an amine and an active hydrogen on the bindingpartner (see, e.g., Pierce Immunotechnology Catalog and Handbook, 1991,at A12-A13).

Gene Therapy Methods

Also encompassed by the invention are gene therapy methods for treatingor preventing disorders, diseases and conditions. The gene therapymethods relate to the introduction of nucleic acid (DNA, RNA andantisense DNA or RNA) sequences into an animal to achieve expression ofthe polypeptide of the present invention. This method requires apolynucleotide that codes for a polypeptide of the present inventionoperatively linked to a promoter and any other genetic elementsnecessary for the expression of the polypeptide by the target tissue.Such gene therapy and delivery techniques are known in the art, see, forexample, WO90/11092, which is herein incorporated by reference.

Thus, for example, cells from a patient may be engineered with apolynucleotide (DNA or RNA) comprising a promoter operably linked to apolynucleotide of the present invention ex vivo, with the engineeredcells then being provided to a patient to be treated with thepolypeptide of the present invention. Such methods are well-known in theart. For example, see Belldegrun, A., et al., J. Natl. Cancer Inst. 85:207-216 (1993); Ferrantini, M. et al., Cancer Research 53: 1107-1112(1993); Ferrantini, M. et al., J. Immunology 153: 4604-4615 (1994);Kaido, T., et al., Int. J. Cancer 60: 221-229 (1995); Ogura, H., et al.,Cancer Research 50: 5102-5106 (1990); Santodonato, L., et al., HumanGene Therapy 7:1-10 (1996); Santodonato, L., et al., Gene Therapy4:1246-1255 (1997); and Zhang, J.-F. et al., Cancer Gene Therapy 3:31-38 (1996)), which are herein incorporated by reference. In oneembodiment, the cells thatare engineered are arterial cells. Thearterial cells may be reintroduced into the patient through directinjection to the artery, the tissues surrounding the artery, or throughcatheter injection.

As discussed in more detail below, the polynucleotide constructs can bedelivered by any method that delivers injectable materials to the cellsof an animal, such as, injection into the interstitial space of tissues(heart, muscle, skin, lung, liver, and the like). The polynucleotideconstructs may be delivered in a pharmaceutically acceptable liquid oraqueous carrier.

In one embodiment, the polynucleotide of the present invention isdelivered as a naked polynucleotide. The term “naked” polynucleotide,DNA or RNA refers to sequences that are free from any delivery vehiclethat acts to assist, promote or facilitate entry into the cell,including viral sequences, viral particles, liposome formulations,lipofectin or precipitating agents and the like. However, thepolynucleotide of the present invention can also be delivered inliposome formulations and lipofectin formulations and the like can beprepared by methods well known to those skilled in the art. Such methodsare described, for example, in U.S. Pat. Nos. 5,593,972, 5,589,466, and5,580,859, which are herein incorporated by reference.

The polynucleotide vector constructs used in the gene therapy method arepreferably constructs that will not integrate into the host genome norwill they contain sequences that allow for replication. Appropriatevectors include pWLNEO, pSV2CAT, pOG44, pXT1 and pSG available fromStratagene; pSVK3, pBPV, pMSG and pSVL available from Pharmacia; andpEF1/V5, pcDNA3.1, and pRc/CMV2 available from Invitrogen. Othersuitable vectors will be readily apparent to the skilled artisan.

Any strong promoter known to those skilled in the art can be used fordriving the expression of the polynucleotide sequence. Suitablepromoters include adenoviral promoters, such as the adenoviral majorlate promoter; or heterologous promoters, such as the cytomegalovirus(CMV) promoter; the respiratory syncytial virus (RSV) promoter;inducible promoters, such as the MMT promoter, the metallothioneinpromoter; heat shock promoters; the albumin promoter; the ApoAIpromoter; human globin promoters; viral thymidine kinase promoters, suchas the Herpes Simplex thymidine kinase promoter; retroviral LTRs; theb-actin promoter; and human growth hormone promoters. The promoter alsomay be the native promoter for the polynucleotide of the presentinvention.

Unlike other gene therapy techniques, one major advantage of introducingnaked nucleic acid sequences into target cells is the transitory natureof the polynucleotide synthesis in the cells. Studies have shown thatnon-replicating DNA sequences can be introduced into cells to provideproduction of the desired polypeptide for periods of up to six months.

The polynucleotide construct can be delivered to the interstitial spaceof tissues within the an animal, including of muscle, skin, brain, lung,liver, spleen, bone marrow, thymus, heart, lymph, blood, bone,cartilage, pancreas, kidney, gall bladder, stomach, intestine, testis,ovary, uterus, rectum, nervous system, eye, gland, and connectivetissue. Interstitial space of the tissues comprises the intercellular,fluid, mucopolysaccharide matrix among the reticular fibers of organtissues, elastic fibers in the walls of vessels or chambers, collagenfibers of fibrous tissues, or that same matrix within connective tissueensheathing muscle cells or in the lacunae of bone. It is similarly thespace occupied by the plasma of the circulation and the lymph fluid ofthe lymphatic channels. Delivery to the interstitial space of muscletissue is preferred for the reasons discussed below. They may beconveniently delivered by injection into the tissues comprising thesecells. They are preferably delivered to and expressed in persistent,non-dividing cells that are differentiated, although delivery andexpression may be achieved in non-differentiated or less completelydifferentiated cells, such as, for example, stem cells of blood or skinfibroblasts. In vivo muscle cells are particularly competent in theirability to take up and express polynucleotides.

For the naked nucleic acid sequence injection, an effective dosageamount of DNA or RNA will be in the range of from about 0.05 mg/kg bodyweight to about 50 mg/kg body weight. Preferably the dosage will be fromabout 0.005 mg/kg to about 20 mg/kg and more preferably from about 0.05mg/kg to about 5 mg/kg. Of course, as the artisan of ordinary skill willappreciate, this dosage will vary according to the tissue site ofinjection. The appropriate and effective dosage of nucleic acid sequencecan readily be determined by those of ordinary skill in the art and maydepend on the condition being treated and the route of administration.

The preferred route of administration is by the parenteral route ofinjection into the interstitial space of tissues. However, otherparenteral routes may also be used, such as, inhalation of an aerosolformulation particularly for delivery to lungs or bronchial tissues,throat or mucous membranes of the nose. In addition, naked DNAconstructs can be delivered to arteries during angioplasty by thecatheter used in the procedure.

The naked polynucleotides are delivered by any method known in the art,including, but not limited to, direct needle injection at the deliverysite, intravenous injection, topical administration, catheter infusion,and so-called “gene guns”. These delivery methods are known in the art.

The constructs may also be delivered with delivery vehicles such asviral sequences, viral particles, liposome formulations, lipofectin,precipitating agents, etc. Such methods of delivery are known in theart.

In certain embodiments, the polynucleotide constructs are complexed in aliposome preparation. Liposomal preparations for use in the instantinvention include cationic (positively charged), anionic (negativelycharged) and neutral preparations. However, cationic liposomes areparticularly preferred because a tight charge complex can be formedbetween the cationic liposome and the polyanionic nucleic acid. Cationicliposomes have been shown to mediate intracellular delivery of plasmidDNA (Feigner et al., Proc. Natl. Acad. Sci. USA (1987) 84:7413-7416,which is herein incorporated by reference); mRNA (Malone et al., Proc.Natl. Acad. Sci. USA (1989) 86:6077-6081, which is herein incorporatedby reference); and purified transcription factors (Debs et al., J. Biol.Chem. (1990) 265:10189-10192, which is herein incorporated byreference), in functional form.

Cationic liposomes are readily available. For example,N[1-2,3-dioleyloxy)propyl]-N,N,N-triethylammonium (DOTMA) liposomes areparticularly useful and are available under the trademark Lipofectin,from GIBCO BRL, Grand Island, N.Y. (See, also, Feigner et al., Proc.Natl Acad. Sci. USA (1987) 84:7413-7416, which is herein incorporated byreference). Other commercially available liposomes include transfectace(DDAB/DOPE) and DOTAP/DOPE (Boehringer).

Other cationic liposomes can be prepared from readily availablematerials using techniques well known in the art. See, e.g. PCTPublication No. WO 90/11092 (which is herein incorporated by reference)for a description of the synthesis of DOTAP(1,2-bis(oleoyloxy)-3-(trimethylammonio)propane) liposomes. Preparationof DOTMA liposomes is explained in the literature, see, e.g., P. Feigneret al., Proc. Natl. Acad. Sci. USA 84:7413-7417, which is hereinincorporated by reference. Similar methods can be used to prepareliposomes from other cationic lipid materials.

Similarly, anionic and neutral liposomes are readily available, such asfrom Avanti Polar Lipids (Birmingham, Ala.), or can be easily preparedusing readily available materials. Such materials include phosphatidyl,choline, cholesterol, phosphatidyl ethanolamine, dioleoylphosphatidylcholine (DOPC), dioleoylphosphatidyl glycerol (DOPG),dioleoylphoshatidyl ethanolamine (DOPE), among others. These materialscan also be mixed with the DOTMA and DOTAP starting materials inappropriate ratios. Methods for making liposomes using these materialsare well known in the art.

For example, commercially dioleoylphosphatidyl choline (DOPC),dioleoylphosphatidyl glycerol (DOPG), and dioleoylphosphatidylethanolamine (DOPE) can be used in various combinations to makeconventional liposomes, with or without the addition of cholesterol.Thus, for example, DOPG/DOPC vesicles can be prepared by drying 50 mgeach of DOPG and DOPC under a stream of nitrogen gas into a sonicationvial. The sample is placed under a vacuum pump overnight and is hydratedthe following day with deionized water. The sample is then sonicated for2 hours in a capped vial, using a Heat Systems model 350 sonicatorequipped with an inverted cup (bath type) probe at the maximum settingwhile the bath is circulated at 15EC. Alternatively, negatively chargedvesicles can be prepared without sonication to produce multilamellarvesicles or by extrusion through nucleopore membranes to produceunilamellar vesicles of discrete size. Other methods are known andavailable to those of skill in the art.

The liposomes can comprise multilamellar vesicles (MLVs), smallunilamellar vesicles (SUVs), or large unilamellar vesicles (LUVs), withSUVs being preferred. The various liposome-nucleic acid complexes areprepared using methods well known in the art. See, e.g., Straubinger etal., Methods of Immunology (1983), 101:512-527, which is hereinincorporated by reference. For example, MLVs containing nucleic acid canbe prepared by depositing a thin film of phospholipid on the walls of aglass tube and subsequently hydrating with a solution of the material tobe encapsulated. SUVs are prepared by extended sonication of MLVs toproduce a homogeneous population of unilamellar liposomes. The materialto be entrapped is added to a suspension of preformed MLVs and thensonicated. When using liposomes containing cationic lipids, the driedlipid film is resuspended in an appropriate solution such as sterilewater or an isotonic buffer solution such as 10 mM Tris/NaCl, sonicated,and then the preformed liposomes are mixed directly with the DNA. Theliposome and DNA form a very stable complex due to binding of thepositively charged liposomes to the cationic DNA. SUVs find use withsmall nucleic acid fragments. LUVs are prepared by a number of methods,well known in the art. Commonly used methods include Ca²⁺-EDTA chelation(Papahadjopoulos et al., Biochim. Biophys. Acta (1975) 394:483; Wilsonet al., Cell 17:77 (1979)); ether injection (Deamer, D. and Bangham, A.,Biochim. Biophys. Acta 443:629 (1976); Ostro et al., Biochem. Biophys.Res. Commun. 76:836 (1977); Fraley et al., Proc. Natl. Acad. Sci. USA76:3348 (1979)); detergent dialysis (Enoch, H. and Strittmatter, P.,Proc. Natl. Acad. Sci. USA 76:145 (1979)); and reverse-phase evaporation(REV) (Fraley et al., J. Biol. Chem. 255:10431 (1980); Szoka, F. andPapahadjopoulos, D., Proc. Natl. Acad. Sci. USA 75:145 (1978);Schaefer-Ridder et al., Science 215:166 (1982)), which are hereinincorporated by reference.

Generally, the ratio of DNA to liposomes will be from about 10:1 toabout 1:10. Preferably, the ration will be from about 5:1 to about 1:5.More preferably, the ration will be about 3:1 to about 1:3. Still morepreferably, the ratio will be about 1:1.

U.S. Pat. No. 5,676,954 (which is herein incorporated by reference)reports on the injection of genetic material, complexed with cationicliposomes carriers, into mice. U.S. Pat. Nos. 4,897,355, 4,946,787,5,049,386, 5,459,127, 5,589,466, 5,693,622, 5,580,859, 5,703,055, andinternational publication no. WO 94/9469 (which are herein incorporatedby reference) provide cationic lipids for use in transfecting DNA intocells and mammals. U.S. Pat. Nos. 5,589,466, 5,693,622, 5,580,859,5,703,055, and international publication no. WO 94/9469 provides methodsfor delivering DNA-cationic lipid complexes to mammals.

In certain embodiments, cells are engineered, ex vivo or in vivo, usinga retroviral particle containing RNA that comprises a sequence encodinga polypeptide of the present invention. Retroviruses from which theretroviral plasmid vectors may be derived include, but are not limitedto, Moloney Murine Leukemia Virus, spleen necrosis virus, Rous sarcomaVirus, Harvey Sarcoma Virus, avian leukosis virus, gibbon ape leukemiavirus, human immunodeficiency virus, Myeloproliferative Sarcoma Virus,and mammary tumor virus.

The retroviral plasmid vector is employed to transduce packaging celllines to form producer cell lines. Examples of packaging cells which maybe transfected include, but are not limited to, the PE501, PA317, R-2,R-AM, PA12, T19-14X, VT-19-17-H2, RCRE, RCRIP, GP+E-86, GP+envAm12, andDAN cell lines as described in Miller, Human Gene Therapy 1:5-14 (1990),which is incorporated herein by reference in its entirety. The vectormay transduce the packaging cells through any means known in the art.Such means include, but are not limited to, electroporation, the use ofliposomes, and CaPO₄ precipitation. In one alternative, the retroviralplasmid vector may be encapsulated into a liposome, or coupled to alipid, and then administered to a host.

The producer cell line generates infectious retroviral vector particlesthat include polynucleotide encoding a polypeptide of the presentinvention. Such retroviral vector particles then may be employed, totransduce eukaryotic cells, either in vitro or in vivo. The transducedeukaryotic cells will express a polypeptide of the present invention.

In certain other embodiments, cells are engineered, ex vivo or in vivo,with polynucleotide contained in an adenovirus vector. Adenovirus can bemanipulated such that it encodes and expresses a polypeptide of thepresent invention, and at the same time is inactivated in terms of itsability to replicate in a normal lytic viral life cycle. Adenovirusexpression is achieved without integration of the viral DNA into thehost cell chromosome, thereby alleviating concerns about insertionalmutagenesis. Furthermore, adenoviruses have been used as live entericvaccines for many years with an excellent safety profile (Schwartz etal. Am. Rev. Respir. Dis. 109:233-238 (1974)). Finally, adenovirusmediated gene transfer has been demonstrated in a number of instancesincluding transfer of alpha-1-antitrypsin and CFTR to the lungs ofcotton rats (Rosenfeld, M. A. et al. (1991) Science 252:431-434;Rosenfeld et al., (1992) Cell 68:143-155). Furthermore, extensivestudies to attempt to establish adenovirus as a causative agent in humancancer were uniformly negative (Green, M. et al. (1979) Proc. Natl.Acad. Sci. USA 76:6606).

Suitable adenoviral vectors useful in the present invention aredescribed, for example, in Kozarsky and Wilson, Curr. Opin. Genet.Devel. 3:499-503 (1993); Rosenfeld et al., Cell 68:143-155 (1992);Engelhardt et al., Human Genet. Ther. 4:759-769 (1993); Yang et al.,Nature Genet. 7:362-369 (1994); Wilson et al., Nature 365:691-692(1993); and U.S. Pat. No. 5,652,224, which are herein incorporated byreference. For example, the adenovirus vector Ad2 is useful and can begrown in human 293 cells. These cells contain the E1 region ofadenovirus and constitutively express Ela and Elb, which complement thedefective adenoviruses by providing the products of the genes deletedfrom the vector. In addition to Ad2, other varieties of adenovirus(e.g., Ad3, Ad5, and Ad7) are also useful in the present invention.

Preferably, the adenoviruses used in the present invention arereplication deficient. Replication deficient adenoviruses require theaid of a helper virus and/or packaging cell line to form infectiousparticles. The resulting virus is capable of infecting cells and canexpress a polynucleotide of interest that is operably linked to apromoter, but cannot replicate in most cells. Replication deficientadenoviruses may be deleted in one or more of all or a portion of thefollowing genes: E1a, E1b, E3, E4, E2a, or L1 through L5.

In certain other embodiments, the cells are engineered, ex vivo or invivo, using an adeno-associated virus (AAV). AAVs are naturallyoccurring defective viruses that require helper viruses to produceinfectious particles (Muzyczka, N., Curr. Topics in Microbiol. Immunol.158:97 (1992)). It is also one of the few viruses that may integrate itsDNA into non-dividing cells. Vectors containing as little as 300 basepairs of AAV can be packaged and can integrate, but space for exogenousDNA is limited to about 4.5 kb. Methods for producing and using suchAAVs are known in the art. See, for example, U.S. Pat. Nos. 5,139,941,5,173,414, 5,354,678, 5,436,146, 5,474,935, 5,478,745, and 5,589,377.

For example, an appropriate AAV vector for use in the present inventionwill include all the sequences necessary for DNA replication,encapsidation, and host-cell integration. The polynucleotide constructis inserted into the AAV vector using standard cloning methods, such asthose found in Sambrook et al., Molecular Cloning: A Laboratory Manual,Cold Spring Harbor Press (1989). The recombinant AAV vector is thentransfected into packaging cells which are infected with a helper virus,using any standard technique, including lipofection, electroporation,calcium phosphate precipitation, etc. Appropriate helper viruses includeadenoviruses, cytomegaloviruses, vaccinia viruses, or herpes viruses.Once the packaging cells are transfected and infected, they will produceinfectious AAV viral particles that contain the polynucleotideconstruct. These viral particles are then used to transduce eukaryoticcells, either ex vivo or in vivo. The transduced cells will contain thepolynucleotide construct integrated into its genome, and will express apolypeptide of the invention.

Another method of gene therapy involves operably associatingheterologous control regions and endogenous polynucleotide sequences(e.g. encoding a polypeptide of the present invention) via homologousrecombination (see, e.g., U.S. Pat. No. 5,641,670, issued Jun. 24, 1997;International Publication No. WO 96/29411, published Sep. 26, 1996;International Publication No. WO 94/12650, published Aug. 4, 1994;Koller et al., Proc. Natl. Acad. Sci. USA 86:8932-8935 (1989); andZijlstra et al., Nature 342:435-438 (1989), which are hereinencorporated by reference. This method involves the activation of a genewhich is present in the target cells, but which is not normallyexpressed in the cells, or is expressed at a lower level than desired.

Polynucleotide constructs are made, using standard techniques known inthe art, which contain the promoter with targeting sequences flankingthe promoter. Suitable promoters are described herein. The targetingsequence is sufficiently complementary to an endogenous sequence topermit homologous recombination of the promoter-targeting sequence withthe endogenous sequence. The targeting sequence will be sufficientlynear the 5′ end of the desired endogenous polynucleotide sequence so thepromoter will be operably linked to the endogenous sequence uponhomologous recombination.

The promoter and the targeting sequences can be amplified using PCR.Preferably, the amplified promoter contains distinct restriction enzymesites on the 5′ and 3′ ends. Preferably, the 3′ end of the firsttargeting sequence contains the same restriction enzyme site as the 5′end of the amplified promoter and the 5′ end of the second targetingsequence contains the same restriction site as the 3′ end of theamplified promoter. The amplified promoter and targeting sequences aredigested and ligated together.

The promoter-targeting sequence construct is delivered to the cells,either as naked polynucleotide, or in conjunction withtransfection-facilitating agents, such as liposomes, viral sequences,viral particles, whole viruses, lipofection, precipitating agents, etc.,described in more detail above. The P promoter-targeting sequence can bedelivered by any method, included direct needle injection, intravenousinjection, topical administration, catheter infusion, particleaccelerators, etc. The methods are described in more detail below.

The promoter-targeting sequence construct is taken up by cells.Homologous recombination between the construct and the endogenoussequence takes place, such that an endogenous sequence is placed underthe control of the promoter. The promoter then drives the expression ofthe endogenous sequence.

The polynucleotide encoding a polypeptide of the present invention maycontain a secretory signal sequence that facilitates secretion of theprotein. Typically, the signal sequence is positioned in the codingregion of the polynucleotide to be expressed towards or at the 5′ end ofthe coding region. The signal sequence may be homologous or heterologousto the polynucleotide of interest and may be homologous or heterologousto the cells to be transfected. Additionally, the signal sequence may bechemically synthesized using methods known in the art.

Any mode of administration of any of the above-described polynucleotidesconstructs can be used so long as the mode results in the expression ofone or more molecules in an amount sufficient to provide a therapeuticeffect. This includes direct needle injection, systemic injection,catheter infusion, biolistic injectors, particle accelerators (i.e.,“gene guns”), gelfoam sponge depots, other commercially available depotmaterials, osmotic pumps (e.g., Alza minipumps), oral or suppositorialsolid (tablet or pill) pharmaceutical formulations, and decanting ortopical applications during surgery. For example, direct injection ofnaked calcium phosphate-precipitated plasmid into rat liver and ratspleen or a protein-coated plasmid into the portal vein has resulted ingene expression of the foreign gene in the rat livers (Kaneda et al.,Science 243:375 (1989)).

A preferred method of local administration is by direct injection.Preferably, a recombinant molecule of the present invention complexedwith a delivery vehicle is administered by direct injection into orlocally within the area of arteries. Administration of a compositionlocally within the area of arteries refers to injecting the compositioncentimeters and preferably, millimeters within arteries.

Another method of local administration is to contact a polynucleotideconstruct of the present invention in or around a surgical wound. Forexample, a patient can undergo surgery and the polynucleotide constructcan be coated on the surface of tissue inside the wound or the constructcan be injected into areas of tissue inside the wound.

Therapeutic compositions useful in systemic administration includerecombinant molecules of the present invention complexed to a targeteddelivery vehicle of the present invention. Suitable delivery vehiclesfor use with systemic administration comprise liposomes comprisingligands for targeting the vehicle to a particular site. In specificembodiments, suitable delivery vehicles for use with systemicadministration comprise liposomes comprising polypeptides of theinvention for targeting the vehicle to a particular site.

Preferred methods of systemic administration, include intravenousinjection, aerosol, oral and percutaneous (topical) delivery.Intravenous injections can be performed using methods standard in theart. Aerosol delivery can also be performed using methods standard inthe art (see, for example, Stribling et al., Proc. Natl. Acad. Sci. USA189:11277-11281, 1992, which is incorporated herein by reference). Oraldelivery can be performed by complexing a polynucleotide construct ofthe present invention to a carrier capable of withstanding degradationby digestive enzymes in the gut of an animal. Examples of such carriersinclude plastic capsules or tablets, such as those known in the art.Topical delivery can be performed by mixing a polynucleotide constructof the present invention with a lipophilic reagent (e.g., DMSO) that iscapable of passing into the skin.

Determining an effective amount of substance to be delivered can dependupon a number of factors including, for example, the chemical structureand biological activity of the substance, the age and weight of theanimal, the precise condition requiring treatment and its severity, andthe route of administration. The frequency of treatments depends upon anumber of factors, such as the amount of polynucleotide constructsadministered per dose, as well as the health and history of the subject.The precise amount, number of doses, and timing of doses will bedetermined by the attending physician or veterinarian.

Therapeutic compositions of the present invention can be administered toany animal, preferably to mammals and birds. Preferred mammals includehumans, dogs, cats, mice, rats, rabbits sheep, cattle, horses and pigs,with humans being particularly preferred.

Biological Activities

Polynucleotides or polypeptides, or agonists or antagonists of thepresent invention, can be used in assays to test for one or morebiological activities. If these polynucleotides or polypeptides, oragonists or antagonists of the present invention, do exhibit activity ina particular assay, it is likely that these molecules may be involved inthe diseases associated with the biological activity. Thus, thepolynucleotides and polypeptides, and agonists or antagonists could beused to treat the associated disease.

Members of the secreted family of proteins are believed to be involvedin biological activities associated with, for example, cellularsignaling. Accordingly, compositions of the invention (includingpolynucleotides, polypeptides and antibodies of the invention, andfragments and variants thereof) may be used in diagnosis, prognosis,prevention and/or treatment of diseases and/or disorders associated withaberrant activity of secreted polypeptides.

In preferred embodiments, compositions of the invention (includingpolynucleotides, polypeptides and antibodies of the invention, andfragments and variants thereof) may be used in the diagnosis, prognosis,prevention, treatment, and/or amelioration of diseases and/or disordersrelating to the immune system (e.g., allergic reactions, asthma,anaphylaxis, hypersensitivity to an antigenic molecule, rhinitis,eczema, and as described in the “Gastrointestinal Disorders”,“Respiratory Disorders”, and “Wound Healing and Epithelial CellProliferation” sections below).

In certain embodiments, a polypeptide of the invention, orpolynucleotides, antibodies, agonists, or antagonists corresponding tothat polypeptide, may be used to diagnose and/or prognosticate diseasesand/or disorders associated with the tissue(s) in which the polypeptideof the invention is expressed including one, two, three, four, five, ormore tissues disclosed in Table 1B.2, column 5 (Tissue DistributionLibrary Code).

Thus, polynucleotides, translation products and antibodies of theinvention are useful in the diagnosis, detection, prevention,prognistication, and/or treatment of diseases and/or disordersassociated with activities that include, but are not limited to,prohormone activation, neurotransmitter activity, cellular signaling,cellular proliferation, cellular differentiation, and cell migration.

More generally, polynucleotides, translation products and antibodiescorresponding to this gene may be useful for the diagnosis, prognosis,prevention, treatment and/or amelioration of diseases and/or disordersassociated with the following system or systems.

Immune Activity

Polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention may be useful in preventing,diagnosing, prognosticating, treating, and/or ameliorating diseases,disorders, and/or conditions of the immune system, by, for example,activating or inhibiting the proliferation, differentiation, ormobilization (chemotaxis) of immune cells. Immune cells develop througha process called hematopoiesis, producing myeloid (platelets, red bloodcells, neutrophils, and macrophages) and lymphoid (B and T lymphocytes)cells from pluripotent stem cells. The etiology of these immunediseases, disorders, and/or conditions may be genetic, somatic, such ascancer and some autoimmune diseases, acquired (e.g., by chemotherapy ortoxins), or infectious. Moreover, polynucleotides, polypeptides,antibodies, and/or agonists or antagonists of the present invention canbe used as a marker or detector of a particular immune system disease ordisorder.

In another embodiment, a polypeptide of the invention, orpolynucleotides, antibodies, agonists, or antagonists corresponding tothat polypeptide, may be used to treat diseases and disorders of theimmune system and/or to inhibit or enhance an immune response generatedby cells associated with the tissue(s) in which the polypeptide of theinvention is expressed, including one, two, three, four, five, or moretissues disclosed in Table 1B.2, column 5 (Tissue Distribution LibraryCode).

Polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention may be useful in preventing,diagnosing, prognosticating, treating and/or amelioratingimmunodeficiencies, including both congenital and acquiredimmunodeficiencies. Examples of B cell immunodeficiencies in whichimmunoglobulin levels B cell function and/or B cell numbers aredecreased include: X-linked agammaglobulinemia (Bruton's disease),X-linked infantile agammaglobulinemia, X-linked immunodeficiency withhyper IgM, non X-linked immunodeficiency with hyper IgM, X-linkedlymphoproliferative syndrome (XLP), agammaglobulinemia includingcongenital and acquired agammaglobulinemia, adult onsetagammaglobulinemia, late-onset agammaglobulinemia, dysgammaglobulinemia,hypogammaglobulinemia, unspecified hypogammaglobulinemia, recessiveagammaglobulinemia (Swiss type), Selective IgM deficiency, selective IgAdeficiency, selective IgG subclass deficiencies, IgG subclass deficiency(with or without IgA deficiency), Ig deficiency with increased IgM, IgGand IgA deficiency with increased IgM, antibody deficiency with normalor elevated Igs, Ig heavy chain deletions, kappa chain deficiency, Bcell lymphoproliferative disorder (BLPD), common variableimmunodeficiency (CVID), common variable immunodeficiency (CVI)(acquired), and transient hypogammaglobulinemia of infancy.

In specific embodiments, ataxia-telangiectasia or conditions associatedwith ataxia-telangiectasia are detected, prevented, diagnosed,prognosticated, treated, and/or ameliorated using the polypeptides orpolynucleotides of the invention, and/or agonists or antagoniststhereof.

Examples of congenital immunodeficiencies in which T cell and/or B cellfunction and/or number is decreased include, but are not limited to:DiGeorge anomaly, severe combined immunodeficiencies (SCID) (including,but not limited to, X-linked SCID, autosomal recessive SCID, adenosinedeaminase deficiency, purine nucleoside phosphorylase (PNP) deficiency,Class II MHC deficiency (Bare lymphocyte syndrome), Wiskott-Aldrichsyndrome, and ataxia telangiectasia), thymic hypoplasia, third andfourth pharyngeal pouch syndrome, 22q11.2 deletion, chronicmucocutaneous candidiasis, natural killer cell deficiency (NK),idiopathic CD4+ T-lymphocytopenia, immunodeficiency with predominant Tcell defect (unspecified), and unspecified immunodeficiency of cellmediated immunity.

In specific embodiments, DiGeorge anomaly or conditions associated withDiGeorge anomaly are prevented, detected, diagnosed, prognosticated,treated and/or ameliorated using polypeptides or polynucleotides of theinvention, or antagonists or agonists thereof.

Other immunodeficiencies that may be prevented, detected, diagnosed,prognosticated, treated and/or ameliorated using polypeptides orpolynucleotides of the invention, and/or agonists or antagoniststhereof, include, but are not limited to, chronic granulomatous disease,Chediak-Higashi syndrome, myeloperoxidase deficiency, leukocyteglucose-6-phosphate dehydrogenase deficiency, X-linkedlymphoproliferative syndrome (XLP), leukocyte adhesion deficiency,complement component deficiencies (including C1, C2, C3, C4, C5, C6, C7,C8 and/or C9 deficiencies), reticular dysgenesis, thymicalymphoplasia-aplasia, immunodeficiency with thymoma, severe congenitalleukopenia, dysplasia with immunodeficiency, neonatal neutropenia, shortlimbed dwarfism, and Nezelof syndrome-combined immunodeficiency withIgs.

In a preferred embodiment, the immunodeficiencies and/or conditionsassociated with the immunodeficiencies recited above are prevented,detected, diagnosed, prognosticated, treated and/or ameliorated usingpolynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention.

In a preferred embodiment polynucleotides, polypeptides, antibodies,and/or agonists or antagonists of the present invention could be used asan agent to boost immunoresponsiveness among immunodeficientindividuals. In specific embodiments, polynucleotides, polypeptides,antibodies, and/or agonists or antagonists of the present inventioncould be used as an agent to boost immunoresponsiveness among B celland/or T cell immunodeficient individuals.

The polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention may be useful in preventing,detecting, diagnosing, prognosticating, treating and/or amelioratingautoimmune disorders. Many autoimmune disorders result frominappropriate recognition of self as foreign material by immune cells.This inappropriate recognition results in an immune response leading tothe destruction of the host tissue. Therefore, the administration ofpolynucleotides and polypeptides of the invention that can inhibit animmune response, particularly the proliferation, differentiation, orchemotaxis of T-cells, may be an effective therapy in preventingautoimmune disorders.

Autoimmune diseases or disorders that may be prevented, detected,diagnosed, prognosticated, treated, and/or ameliorated bypolynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention include, but are not limited to,one or more of the following: systemic lupus erythematosus, rheumatoidarthritis, ankylosing spondylitis, multiple sclerosis, autoimmunethyroiditis, Hashimoto's thyroiditis, autoimmune hemolytic anemia,hemolytic anemia, thrombocytopenia, autoimmune thrombocytopenia purpura,autoimmune neonatal thrombocytopenia, idiopathic thrombocytopeniapurpura, purpura (e.g., Henloch-Scoenlein purpura), autoimmunocytopenia,Goodpasture's syndrome, Pemphigus vulgaris, myasthenia gravis, Grave'sdisease (hyperthyroidism), and insulin-resistant diabetes mellitus.

Additional disorders that are likely to have an autoimmune componentthat may be prevented, detected, diagnosed, prognosticated, treatedand/or ameliorated with the compositions of the invention include, butare not limited to, type II collagen-induced arthritis, antiphospholipidsyndrome, dermatitis, allergic encephalomyelitis, myocarditis, relapsingpolychondritis, rheumatic heart disease, neuritis, uveitis ophthalmia,polyendocrinopathies, Reiter's Disease, Stiff-Man Syndrome, autoimmunepulmonary inflammation, autism, Guillain-Barre Syndrome, insulindependent diabetes mellitus, and autoimmune inflammatory eye disorders.

Additional disorders that are likely to have an autoimmune componentthat may be prevented, detected, diagnosed, prognosticated, treatedand/or ameliorated with the compositions of the invention include, butare not limited to, scleroderma with anti-collagen antibodies (oftencharacterized, e.g., by nucleolar and other nuclear antibodies), mixedconnective tissue disease (often characterized, e.g., by antibodies toextractable nuclear antigens (e.g., ribonucleoprotein)), polymyositis(often characterized, e.g., by nonhistone ANA), pernicious anemia (oftencharacterized, e.g., by antiparietal cell, microsomes, and intrinsicfactor antibodies), idiopathic Addison's disease (often characterized,e.g., by humoral and cell-mediated adrenal cytotoxicity, infertility(often characterized, e.g., by antispermatozoal antibodies),glomerulonephritis (often characterized, e.g., by glomerular basementmembrane antibodies or immune complexes), bullous pemphigoid (oftencharacterized, e.g., by IgG and complement in basement membrane),Sjogren's syndrome (often characterized, e.g., by multiple tissueantibodies, and/or a specific nonhistone ANA (SS-B)), diabetes mellitus(often characterized, e.g., by cell-mediated and humoral islet cellantibodies), and adrenergic drug resistance (including adrenergic drugresistance with asthma or cystic fibrosis) (often characterized, e.g.,by beta-adrenergic receptor antibodies).

Additional disorders that may have an autoimmune component that may beprevented, detected, diagnosed, prognosticated, treated and/orameliorated with the compositions of the invention include, but are notlimited to, chronic active hepatitis (often characterized, e.g., bysmooth muscle antibodies), primary biliary cirrhosis (oftencharacterized, e.g., by mitochondria antibodies), other endocrine glandfailure (often characterized, e.g., by specific tissue antibodies insome cases), vitiligo (often characterized, e.g., by melanocyteantibodies), vasculitis (often characterized, e.g., by Ig and complementin vessel walls and/or low serum complement), post-MI (oftencharacterized, e.g., by myocardial antibodies), cardiotomy syndrome(often characterized, e.g., by myocardial antibodies), urticaria (oftencharacterized, e.g., by IgG and IgM antibodies to IgE), atopicdermatitis (often characterized, e.g., by IgG and IgM antibodies toIgE), asthma (often characterized, e.g., by IgG and IgM antibodies toIgE), and many other inflammatory, granulomatous, degenerative, andatrophic disorders.

In a preferred embodiment, the autoimmune diseases and disorders and/orconditions associated with the diseases and disorders recited above areprevented, detected, diagnosed, prognosticated, treated and/orameliorated using for example, antagonists or agonists, polypeptides orpolynucleotides, or antibodies of the present invention. In a specificpreferred embodiment, rheumatoid arthritis is prevented, detected,diagnosed, prognosticated, treated and/or ameliorated usingpolynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention.

In another specific preferred embodiment, systemic lupus erythematosusis prevented, detected, diagnosed, prognosticated, treated and/orameliorated using polynucleotides, polypeptides, antibodies, and/oragonists or antagonists of the present invention. In another specificpreferred embodiment, idiopathic thrombocytopenia purpura is prevented,detected, diagnosed, prognosticated, treated and/or ameliorated usingpolynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention.

In another specific preferred embodiment IgA nephropathy is prevented,detected, diagnosed, prognosticated, treated and/or ameliorated usingpolynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention.

In a preferred embodiment, the autoimmune diseases and disorders and/orconditions associated with the diseases and disorders recited above areprevented, detected, diagnosed, prognosticated, treated and/orameliorated using polynucleotides, polypeptides, antibodies, and/oragonists or antagonists of the present invention

In preferred embodiments, polypeptides, antibodies, polynucleotidesand/or agonists or antagonists of the present invention are used as aimmunosuppressive agent(s).

Polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention may be useful in detecting,preventing, diagnosing, prognosticating, treating, and/or amelioratingdiseases, disorders, and/or conditions of hematopoietic cells.Polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention could be used to increasedifferentiation and proliferation of hematopoietic cells, including thepluripotent stem cells, in an effort to treat or prevent those diseases,disorders, and/or conditions associated with a decrease in certain (ormany) types hematopoietic cells, including but not limited to,leukopenia, neutropenia, anemia, and thrombocytopenia. Alternatively,Polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention could be used to increasedifferentiation and proliferation of hematopoietic cells, including thepluripotent stem cells, in an effort to treat or prevent those diseases,disorders, and/or conditions associated with an increase in certain (ormany) types of hematopoietic cells, including but not limited to,histiocytosis.

Allergic reactions and conditions, such as asthma (particularly allergicasthma) or other respiratory problems, may also be detected, prevented,diagnosed, prognosticated, treated, and/or ameliorated usingpolypeptides, antibodies, or polynucleotides of the invention, and/oragonists or antagonists thereof. Moreover, these molecules can be usedto treat, prevent, prognose, and/or diagnose anaphylaxis,hypersensitivity to an antigenic molecule, or blood groupincompatibility.

Additionally, polypeptides or polynucleotides of the invention, and/oragonists or antagonists thereof, may be used to detect, prevent,diagnose, prognosticate, treat, and/or ameliorate IgE-mediated allergicreactions. Such allergic reactions include, but are not limited to,asthma, rhinitis, and eczema. In specific embodiments, polynucleotides,polypeptides, antibodies, and/or agonists or antagonists of the presentinvention may be used to modulate IgE concentrations in vitro or invivo.

Moreover, polynucleotides, polypeptides, antibodies, and/or agonists orantagonists of the present invention have uses in the detection,prevention, diagnosis, prognostication, treatment, and/or ameliorationof inflammatory conditions. For example, since polypeptides, antibodies,or polynucleotides of the invention, and/or agonists or antagonists ofthe invention may inhibit the activation, proliferation and/ordifferentiation of cells involved in an inflammatory response, thesemolecules can be used to prevent and/or treat chronic and acuteinflammatory conditions. Such inflammatory conditions include, but arenot limited to, for example, inflammation associated with infection(e.g., septic shock, sepsis, or systemic inflammatory responsesyndrome), ischemia-reperfusion injury, endotoxin lethality,complement-mediated hyperacute rejection, nephritis, cytokine orchemokine induced lung injury, inflammatory bowel disease, Crohn'sdisease, over production of cytokines (e.g., TNF or IL-1), respiratorydisorders (e.g., asthma and allergy); gastrointestinal disorders (e.g.,inflammatory bowel disease); cancers (e.g., gastric, ovarian, lung,bladder, liver, and breast); CNS disorders (e.g., multiple sclerosis;ischemic brain injury and/or stroke, traumatic brain injury,neurodegenerative disorders (e.g., Parkinson's disease and Alzheimer'sdisease); AIDS-related dementia; and prion disease); cardiovasculardisorders (e.g., atherosclerosis, myocarditis, cardiovascular disease,and cardiopulmonary bypass complications); as well as many additionaldiseases, conditions, and disorders that are characterized byinflammation (e.g., hepatitis, rheumatoid arthritis, gout, trauma,pancreatitis, sarcoidosis, dermatitis, renal ischemia-reperfusioninjury, Grave's disease, systemic lupus erythematosus, diabetesmellitus, and allogenic transplant rejection).

Because inflammation is a fundamental defense mechanism, inflammatorydisorders can affect virtually any tissue of the body. Accordingly,polynucleotides, polypeptides, and antibodies of the invention, as wellas agonists or antagonists thereof, have uses in the treatment oftissue-specific inflammatory disorders, including, but not limited to,adrenalitis, alveolitis, angiocholecystitis, appendicitis, balanitis,blepharitis, bronchitis, bursitis, carditis, cellulitis, cervicitis,cholecystitis, chorditis, cochlitis, colitis, conjunctivitis, cystitis,dermatitis, diverticulitis, encephalitis, endocarditis, esophagitis,eustachitis, fibrositis, folliculitis, gastritis, gastroenteritis,gingivitis, glossitis, hepatosplenitis, keratitis, labyrinthitis,laryngitis, lymphangitis, mastitis, media otitis, meningitis, metritis,mucitis, myocarditis, myosititis, myringitis, nephritis, neuritis,orchitis, osteochondritis, otitis, pericarditis, peritendonitis,peritonitis, pharyngitis, phlebitis, poliomyelitis, prostatitis,pulpitis, retinitis, rhinitis, salpingitis, scleritis,sclerochoroiditis, scrotitis, sinusitis, spondylitis, steatitis,stomatitis, synovitis, syringitis, tendonitis, tonsillitis, urethritis,and vaginitis.

In specific embodiments, polypeptides, antibodies, or polynucleotides ofthe invention, and/or agonists or antagonists thereof, are useful todetect, prevent, diagnose, prognosticate, treat, and/or ameliorate organtransplant rejections and graft-versus-host disease. Organ rejectionoccurs by host immune cell destruction of the transplanted tissuethrough an immune response. Similarly, an immune response is alsoinvolved in GVHD, but, in this case, the foreign transplanted immunecells destroy the host tissues. Polypeptides, antibodies, orpolynucleotides of the invention, and/or agonists or antagoniststhereof, that inhibit an immune response, particularly the activation,proliferation, differentiation, or chemotaxis of T-cells, may be aneffective therapy in preventing organ rejection or GVHD. In specificembodiments, polypeptides, antibodies, or polynucleotides of theinvention, and/or agonists or antagonists thereof, that inhibit animmune response, particularly the activation, proliferation,differentiation, or chemotaxis of T-cells, may be an effective therapyin preventing experimental allergic and hyperacute xenograft rejection.

In other embodiments, polypeptides, antibodies, or polynucleotides ofthe invention, and/or agonists or antagonists thereof, are useful todetect, prevent, diagnose, prognosticate, treat, and/or ameliorateimmune complex diseases, including, but not limited to, serum sickness,post streptococcal glomerulonephritis, polyarteritis nodosa, and immunecomplex-induced vasculitis.

Polypeptides, antibodies, polynucleotides and/or agonists or antagonistsof the invention can be used to treat, detect, and/or prevent infectiousagents. For example, by increasing the immune response, particularlyincreasing the proliferation activation and/or differentiation of Band/or T cells, infectious diseases may be treated, detected, and/orprevented. The immune response may be increased by either enhancing anexisting immune response, or by initiating a new immune response.Alternatively, polynucleotides, polypeptides, antibodies, and/oragonists or antagonists of the present invention may also directlyinhibit the infectious agent (refer to section of application listinginfectious agents, etc), without necessarily eliciting an immuneresponse.

In another embodiment, polypeptides, antibodies, polynucleotides and/oragonists or antagonists of the present invention are used as a vaccineadjuvant that enhances immune responsiveness to an antigen. In aspecific embodiment, polypeptides, antibodies, polynucleotides and/oragonists or antagonists of the present invention are used as an adjuvantto enhance tumor-specific immune responses.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an adjuvant to enhance anti-viral immune responses.Anti-viral immune responses that may be enhanced using the compositionsof the invention as an adjuvant, include virus and virus associateddiseases or symptoms described herein or otherwise known in the art. Inspecific embodiments, the compositions of the invention are used as anadjuvant to enhance an immune response to a virus, disease, or symptomselected from the group consisting of: AIDS, meningitis, Dengue, EBV,and hepatitis (e.g., hepatitis B). In another specific embodiment, thecompositions of the invention are used as an adjuvant to enhance animmune response to a virus, disease, or symptom selected from the groupconsisting of: HIV/AIDS, respiratory syncytial virus, Dengue, rotavirus,Japanese B encephalitis, influenza A and B, parainfluenza, measles,cytomegalovirus, rabies, Junin, Chikungunya, Rift Valley Fever, herpessimplex, and yellow fever.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an adjuvant to enhance anti-bacterial or anti-fungal immuneresponses. Anti-bacterial or anti-fungal immune responses that may beenhanced using the compositions of the invention as an adjuvant, includebacteria or fungus and bacteria or fungus associated diseases orsymptoms described herein or otherwise known in the art. In specificembodiments, the compositions of the invention are used as an adjuvantto enhance an immune response to a bacteria or fungus, disease, orsymptom selected from the group consisting of: tetanus, Diphtheria,botulism, and meningitis type B.

In another specific embodiment, the compositions of the invention areused as an adjuvant to enhance an immune response to a bacteria orfungus, disease, or symptom selected from the group consisting of:Vibrio cholerae, Mycobacterium leprae, Salmonella typhi, Salmonellaparatyphi, Meisseria meningitidis, Streptococcus pneumoniae, Group Bstreptococcus, Shigella spp., Enterotoxigenic Escherichia coli,Enterohemorrhagic E. coli, and Borrelia burgdorferi.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an adjuvant to enhance anti-parasitic immune responses.Anti-parasitic immune responses that may be enhanced using thecompositions of the invention as an adjuvant, include parasite andparasite associated diseases or symptoms described herein or otherwiseknown in the art. In specific embodiments, the compositions of theinvention are used as an adjuvant to enhance an immune response to aparasite. In another specific embodiment, the compositions of theinvention are used as an adjuvant to enhance an immune response toPlasmodium (malaria) or Leishmania.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionmay also be employed to treat infectious diseases including silicosis,sarcoidosis, and idiopathic pulmonary fibrosis; for example, bypreventing the recruitment and activation of mononuclear phagocytes.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an antigen for the generation of antibodies to inhibit orenhance immune mediated responses against polypeptides of the invention.

In one embodiment, polypeptides, antibodies, polynucleotides and/oragonists or antagonists of the present invention are administered to ananimal (e.g., mouse, rat, rabbit, hamster, guinea pig, pigs, micro-pig,chicken, camel, goat, horse, cow, sheep, dog, cat, non-human primate,and human, most preferably human) to boost the immune system to produceincreased quantities of one or more antibodies (e.g., IgG, IgA, IgM, andIgE), to induce higher affinity antibody production and immunoglobulinclass switching (e.g., IgG, IgA, IgM, and IgE), and/or to increase animmune response.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a stimulator of B cell responsiveness to pathogens.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an activator of T cells.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent that elevates the immune status of an individualprior to their receipt of immunosuppressive therapies.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to induce higher affinity antibodies.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to increase serum immunoglobulin concentrations.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to accelerate recovery of immunocompromisedindividuals.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to boost immunoresponsiveness among agedpopulations and/or neonates.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an immune system enhancer prior to, during, or after bonemarrow transplant and/or other transplants (e.g., allogeneic orxenogeneic organ transplantation). With respect to transplantation,compositions of the invention may be administered prior to, concomitantwith, and/or after transplantation. In a specific embodiment,compositions of the invention are administered after transplantation,prior to the beginning of recovery of T-cell populations. In anotherspecific embodiment, compositions of the invention are firstadministered after transplantation after the beginning of recovery of Tcell populations, but prior to full recovery of B cell populations.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to boost immunoresponsiveness among individualshaving an acquired loss of B cell function. Conditions resulting in anacquired loss of B cell function that may be ameliorated or treated byadministering the polypeptides, antibodies, polynucleotides and/oragonists or antagonists thereof, include, but are not limited to, HIVInfection, AIDS, bone marrow transplant, and B cell chronic lymphocyticleukemia (CLL).

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to boost immunoresponsiveness among individualshaving a temporary immune deficiency. Conditions resulting in atemporary immune deficiency that may be ameliorated or treated byadministering the polypeptides, antibodies, polynucleotides and/oragonists or antagonists thereof, include, but are not limited to,recovery from viral infections (e.g., influenza), conditions associatedwith malnutrition, recovery from infectious mononucleosis, or conditionsassociated with stress, recovery from measles, recovery from bloodtransfusion, and recovery from surgery.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a regulator of antigen presentation by monocytes, dendriticcells, and/or B-cells. In one embodiment, polynucleotides, polypeptides,antibodies, and/or agonists or antagonists of the present inventionenhance antigen presentation or antagonizes antigen presentation invitro or in vivo. Moreover, in related embodiments, said enhancement orantagonism of antigen presentation may be useful as an anti-tumortreatment or to modulate the immune system.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as an agent to direct an individual's immune system towardsdevelopment of a humoral response (i.e. TH2) as opposed to a TH1cellular response.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a means to induce tumor proliferation and thus make it moresusceptible to anti-neoplastic agents. For example, multiple myeloma isa slowly dividing disease and is thus refractory to virtually allanti-neoplastic regimens. If these cells were forced to proliferate morerapidly their susceptibility profile would likely change.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a stimulator of B cell production in pathologies such asAIDS, chronic lymphocyte disorder and/or Common VariableImmunodificiency.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a therapy for generation and/or regeneration of lymphoidtissues following surgery, trauma or genetic defect. In another specificembodiment, polypeptides, antibodies, polynucleotides and/or agonists orantagonists of the present invention are used in the pretreatment ofbone marrow samples prior to transplant.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a gene-based therapy for genetically inherited disordersresulting in immuno-incompetence/immunodeficiency such as observed amongSCID patients.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a means of activating monocytes/macrophages to defendagainst parasitic diseases that effect monocytes such as Leishmania.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a means of regulating secreted cytokines that are elicitedby polypeptides of the invention.

In another embodiment, polypeptides, antibodies, polynucleotides and/oragonists or antagonists of the present invention are used in one or moreof the applications decribed herein, as they may apply to veterinarymedicine.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a means of blocking various aspects of immune responses toforeign agents or self. Examples of diseases or conditions in whichblocking of certain aspects of immune responses may be desired includeautoimmune disorders such as lupus, and arthritis, as well asimmunoresponsiveness to skin allergies, inflammation, bowel disease,injury and diseases/disorders associated with pathogens.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a therapy for preventing the B cell proliferation and Igsecretion associated with autoimmune diseases such as idiopathicthrombocytopenic purpura, systemic lupus erythematosus and multiplesclerosis.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a inhibitor of B and/or T cell migration in endothelialcells. This activity disrupts tissue architecture or cognate responsesand is useful, for example in disrupting immune responses, and blockingsepsis.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a therapy for chronic hypergammaglobulinemia evident in suchdiseases as monoclonal gammopathy of undetermined significance (MGUS),Waldenstrom's disease, related idiopathic monoclonal gammopathies, andplasmacytomas.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionmay be employed for instance to inhibit polypeptide chemotaxis andactivation of macrophages and their precursors, and of neutrophils,basophils, B lymphocytes and some T-cell subsets, e.g., activated andCD8 cytotoxic T cells and natural killer cells, in certain autoimmuneand chronic inflammatory and infective diseases. Examples of autoimmunediseases are described herein and include multiple sclerosis, andinsulin-dependent diabetes.

The polypeptides, antibodies, polynucleotides and/or agonists orantagonists of the present invention may also be employed to treatidiopathic hyper-eosinophilic syndrome by, for example, preventingeosinophil production and migration.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used to enhance or inhibit complement mediated cell lysis.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used to enhance or inhibit antibody dependent cellular cytotoxicity.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionmay also be employed for treating atherosclerosis, for example, bypreventing monocyte infiltration in the artery wall.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionmay be employed to treat adult respiratory distress syndrome (ARDS).

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionmay be useful for stimulating wound and tissue repair, stimulatingangiogenesis, and/or stimulating the repair of vascular or lymphaticdiseases or disorders. Additionally, agonists and antagonists of theinvention may be used to stimulate the regeneration of mucosal surfaces.

In a specific embodiment, polynucleotides or polypeptides, and/oragonists thereof are used to detect, prevent, diagnose, prognosticate,treat, and/or ameliorate a disorder characterized by primary or acquiredimmunodeficiency, deficient serum immunoglobulin production, recurrentinfections, and/or immune system dysfunction. Moreover, polynucleotidesor polypeptides, and/or agonists thereof may be used to treat or preventinfections of the joints, bones, skin, and/or parotid glands,blood-borne infections (e.g., sepsis, meningitis, septic arthritis,and/or osteomyelitis), autoimmune diseases (e.g., those disclosedherein), inflammatory disorders, and malignancies, and/or any disease ordisorder or condition associated with these infections, diseases,disorders and/or malignancies) including, but not limited to, CVID,other primary immune deficiencies, HIV disease, CLL, recurrentbronchitis, sinusitis, otitis media, conjunctivitis, pneumonia,hepatitis, meningitis, herpes zoster (e.g., severe herpes zoster),and/or pneumocystis carnii. Other diseases and disorders that may bedetected, prevented, diagnosed, prognosticated, treated, and/orameliorated with polynucleotides or polypeptides, and/or agonists of thepresent invention include, but are not limited to, HIV infection,HTLV-BLV infection, lymphopenia, phagocyte bactericidal dysfunctionanemia, thrombocytopenia, and hemoglobinuria.

In another embodiment, polynucleotides, polypeptides, antibodies, and/oragonists or antagonists of the present invention are used to treat,and/or diagnose an individual having common variable immunodeficiencydisease (“CVID”; also known as “acquired agammaglobulinemia” and“acquired hypogammaglobulinemia”) or a subset of this disease.

In a specific embodiment, polynucleotides, polypeptides, antibodies,and/or agonists or antagonists of the present invention may be used todetect, prevent, diagnose, prognosticate, treat, and/or amelioratecancers or neoplasms including immune cell or immune tissue-relatedcancers or neoplasms. Examples of cancers or neoplasms that may bedetected, prevented, diagnosed, prognosticated, treated, and/orameliorated by polynucleotides, polypeptides, antibodies, and/oragonists or antagonists of the present invention include, but are notlimited to, acute myelogenous leukemia, chronic myelogenous leukemia,Hodgkin's disease, non-Hodgkin's lymphoma, acute lymphocytic anemia(ALL) Chronic lymphocyte leukemia, plasmacytomas, multiple myeloma,Burkitt's lymphoma, EBV-transformed diseases, and/or diseases anddisorders described in the section entitled “HyperproliferativeDisorders” elsewhere herein.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a therapy for decreasing cellular proliferation of LargeB-cell Lymphomas.

In another specific embodiment, polypeptides, antibodies,polynucleotides and/or agonists or antagonists of the present inventionare used as a means of decreasing the involvement of B cells and Igassociated with Chronic Myelogenous Leukemia.

In specific embodiments, the compositions of the invention are used asan agent to boost immunoresponsiveness among B cell immunodeficientindividuals, such as, for example, an individual who has undergone apartial or complete splenectomy.

Antagonists of the invention include, for example, binding and/orinhibitory antibodies, antisense nucleic acids, ribozymes or solubleforms of the polypeptides of the present invention (e.g., Fc fusionprotein; see, e.g., Example 9). Agonists of the invention include, forexample, binding or stimulatory antibodies, and soluble forms of thepolypeptides (e.g., Fc fusion proteins; see, e.g., Example 9),polypeptides, antibodies, polynucleotides and/or agonists or antagonistsof the present invention may be employed in a composition with apharmaceutically acceptable carrier, e.g., as described herein.

In another embodiment, polypeptides, antibodies, polynucleotides and/oragonists or antagonists of the present invention are administered to ananimal (including, but not limited to, those listed above, and alsoincluding transgenic animals) incapable of producing functionalendogenous antibody molecules or having an otherwise compromisedendogenous immune system, but which is capable of producing humanimmunoglobulin molecules by means of a reconstituted or partiallyreconstituted immune system from another animal (see, e.g., publishedPCT Application Nos. WO98/24893, WO/9634096, WO/9633735, andWO/9110741). Administration of polypeptides, antibodies, polynucleotidesand/or agonists or antagonists of the present invention to such animalsis useful for the generation of monoclonal antibodies against thepolypeptides, antibodies, polynucleotides and/or agonists or antagonistsof the present invention.

Respiratory Disorders

Polynucleotides or polypeptides, or agonists or antagonists of thepresent invention may be used to detect, prevent, diagnose,prognosticate, treat, and/or ameliorate diseases and/or disorders of therespiratory system.

Diseases and disorders of the respiratory system include, but are notlimited to, nasal vestibulitis, nonallergic rhinitis (e.g., acuterhinitis, chronic rhinitis, atrophic rhinitis, vasomotor rhinitis),nasal polyps, and sinusitis, juvenile angiofibromas, cancer of the noseand juvenile papillomas, vocal cord polyps, nodules (singer's nodules),contact ulcers, vocal cord paralysis, laryngoceles, pharyngitis (e.g.,viral and bacterial), tonsillitis, tonsillar cellulitis, parapharyngealabscess, laryngitis, laryngoceles, and throat cancers (e.g., cancer ofthe nasopharynx, tonsil cancer, larynx cancer), lung cancer (e.g.,squamous cell carcinoma, small cell (oat cell) carcinoma, large cellcarcinoma, and adenocarcinoma), allergic disorders (eosinophilicpneumonia, hypersensitivity pneumonitis (e.g., extrinsic allergicalveolitis, allergic interstitial pneumonitis, organic dustpneumoconiosis, allergic bronchopulmonary aspergillosis, asthma,Wegener's granulomatosis (granulomatous vasculitis), Goodpasture'ssyndrome)), pneumonia (e.g., bacterial pneumonia (e.g., Streptococcuspneumoniae (pneumoncoccal pneumonia), Staphylococcus aureus(staphylococcal pneumonia), Gram-negative bacterial pneumonia (causedby, e.g., Klebsiella and Pseudomas spp.), Mycoplasma pneumoniaepneumonia, Hemophilus influenzae pneumonia, Legionella pneumophila(Legionnaires' disease), and Chlamydia psittaci (Psittacosis)), andviral pneumonia (e.g., influenza, chickenpox (varicella).

Additional diseases and disorders of the respiratory system include, butare not limited to bronchiolitis, polio (poliomyelitis), croup,respiratory syncytial viral infection, mumps, erythema infectiosum(fifth disease), roseola infantum, progressive rubella panencephalitis,german measles, and subacute sclerosing panencephalitis), fungalpneumonia (e.g., Histoplasmosis, Coccidioidomycosis, Blastomycosis,fungal infections in people with severely suppressed immune systems(e.g., cryptococcosis, caused by Cryptococcus neoformans; aspergillosis,caused by Aspergillus spp.; candidiasis, caused by Candida; andmucormycosis)), Pneumocystis carinii (pneumocystis pneumonia), atypicalpneumonias (e.g., Mycoplasma and Chlamydia spp.), opportunisticinfection pneumonia, nosocomial pneumonia, chemical pneumonitis, andaspiration pneumonia, pleural disorders (e.g., pleurisy, pleuraleffusion, and pneumothorax (e.g., simple spontaneous pneumothorax,complicated spontaneous pneumothorax, tension pneumothorax)),obstructive airway diseases (e.g., asthma, chronic obstructive pulmonarydisease (COPD), emphysema, chronic or acute bronchitis), occupationallung diseases (e.g., silicosis, black lung (coal workers'pneumoconiosis), asbestosis, berylliosis, occupational asthsma,byssinosis, and benign pneumoconioses), Infiltrative Lung Disease (e.g.,pulmonary fibrosis (e.g., fibrosing alveolitis, usual interstitialpneumonia), idiopathic pulmonary fibrosis, desquamative interstitialpneumonia, lymphoid interstitial pneumonia, histiocytosis X (e.g.,Letterer-Siwe disease, Hand-Schüller-Christian disease, eosinophilicgranuloma), idiopathic pulmonary hemosiderosis, sarcoidosis andpulmonary alveolar proteinosis), Acute respiratory distress syndrome(also called, e.g., adult respiratory distress syndrome), edema,pulmonary embolism, bronchitis (e.g., viral, bacterial), bronchiectasis,atelectasis, lung abscess (caused by, e.g., Staphylococcus aureus orLegionella pneumophila), and cystic fibrosis.

Wound Healing and Epithelial Cell Proliferation

In accordance with yet a further aspect of the present invention, thereis provided a process for utilizing polynucleotides or polypeptides, aswell as agonists or antagonists of the present invention, fortherapeutic purposes, for example, to stimulate epithelial cellproliferation and basal keratinocytes for the purpose of wound healing,and to stimulate hair follicle production and healing of dermal wounds.Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, may be clinically useful in stimulating woundhealing including surgical wounds, excisional wounds, deep woundsinvolving damage of the dermis and epidermis, eye tissue wounds, dentaltissue wounds, oral cavity wounds, diabetic ulcers, dermal ulcers,cubitus ulcers, arterial ulcers, venous stasis ulcers, burns resultingfrom heat exposure or chemicals, and other abnormal wound healingconditions such as uremia, malnutrition, vitamin deficiencies andcomplications associated with systemic treatment with steroids,radiation therapy and antineoplastic drugs and antimetabolites.Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could be used to promote dermal reestablishmentsubsequent to dermal loss

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could be used to increase the adherence of skingrafts to a wound bed and to stimulate re-epithelialization from thewound bed. The following are types of grafts that polynucleotides orpolypeptides, agonists or antagonists of the present invention, could beused to increase adherence to a wound bed: autografts, artificial skin,allografts, autodermic graft, autoepdermic grafts, avacular grafts,Blair-Brown grafts, bone graft, brephoplastic grafts, cutis graft,delayed graft, dermic graft, epidermic graft, fascia graft, fullthickness graft, heterologous graft, xenograft, homologous graft,hyperplastic graft, lamellar graft, mesh graft, mucosal graft,Ollier-Thiersch graft, omenpal graft, patch graft, pedicle graft,penetrating graft, split skin graft, thick split graft. Polynucleotidesor polypeptides, as well as agonists or antagonists of the presentinvention, can be used to promote skin strength and to improve theappearance of aged skin.

It is believed that polynucleotides or polypeptides, as well as agonistsor antagonists of the present invention, will also produce changes inhepatocyte proliferation, and epithelial cell proliferation in the lung,breast, pancreas, stomach, small intestine, and large intestine.Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could promote proliferation of epithelial cellssuch as sebocytes, hair follicles, hepatocytes, type II pneumocytes,mucin-producing goblet cells, and other epithelial cells and theirprogenitors contained within the skin, lung, liver, and gastrointestinaltract. Polynucleotides or polypeptides, agonists or antagonists of thepresent invention, may promote proliferation of endothelial cells,keratinocytes, and basal keratinocytes.

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could also be used to reduce the side effects ofgut toxicity that result from radiation, chemotherapy treatments orviral infections. Polynucleotides or polypeptides, as well as agonistsor antagonists of the present invention, may have a cytoprotectiveeffect on the small intestine mucosa. Polynucleotides or polypeptides,as well as agonists or antagonists of the present invention, may alsostimulate healing of mucositis (mouth ulcers) that result fromchemotherapy and viral infections.

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could further be used in full regeneration ofskin in full and partial thickness skin defects, including burns, (i.e.,repopulation of hair follicles, sweat glands, and sebaceous glands),treatment of other skin defects such as psoriasis. Polynucleotides orpolypeptides, as well as agonists or antagonists of the presentinvention, could be used to treat epidermolysis bullosa, a defect inadherence of the epidermis to the underlying dermis which results infrequent, open and painful blisters by accelerating reepithelializationof these lesions. Polynucleotides or polypeptides, as well as agonistsor antagonists of the present invention, could also be used to treatgastric and doudenal ulcers and help heal by scar formation of themucosal lining and regeneration of glandular mucosa and duodenal mucosallining more rapidly. Inflammatory bowel diseases, such as Crohn'sdisease and ulcerative colitis, are diseases which result in destructionof the mucosal surface of the small or large intestine, respectively.Thus, polynucleotides or polypeptides, as well as agonists orantagonists of the present invention, could be used to promote theresurfacing of the mucosal surface to aid more rapid healing and toprevent progression of inflammatory bowel disease. Treatment withpolynucleotides or polypeptides, agonists or antagonists of the presentinvention, is expected to have a significant effect on the production ofmucus throughout the gastrointestinal tract and could be used to protectthe intestinal mucosa from injurious substances that are ingested orfollowing surgery. Polynucleotides or polypeptides, as well as agonistsor antagonists of the present invention, could be used to treat diseasesassociate with the under expression.

Moreover, polynucleotides or polypeptides, as well as agonists orantagonists of the present invention, could be used to prevent and healdamage to the lungs due to various pathological states. Polynucleotidesor polypeptides, as well as agonists or antagonists of the presentinvention, which could stimulate proliferation and differentiation andpromote the repair of alveoli and brochiolar epithelium to prevent ortreat acute or chronic lung damage. For example, emphysema, whichresults in the progressive loss of aveoli, and inhalation injuries,i.e., resulting from smoke inhalation and burns, that cause necrosis ofthe bronchiolar epithelium and alveoli could be effectively treatedusing polynucleotides or polypeptides, agonists or antagonists of thepresent invention. Also, polynucleotides or polypeptides, as well asagonists or antagonists of the present invention, could be used tostimulate the proliferation of and differentiation of type IIpneumocytes, which may help treat or prevent disease such as hyalinemembrane diseases, such as infant respiratory distress syndrome andbronchopulmonary displasia, in premature infants.

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention, could stimulate the proliferation anddifferentiation of hepatocytes and, thus, could be used to alleviate ortreat liver diseases and pathologies such as fulminant liver failurecaused by cirrhosis, liver damage caused by viral hepatitis and toxicsubstances (i.e., acetaminophen, carbon tetraholoride and otherhepatotoxins known in the art).

In addition, polynucleotides or polypeptides, as well as agonists orantagonists of the present invention, could be used treat or prevent theonset of diabetes mellitus. In patients with newly diagnosed Types I andII diabetes, where some islet cell function remains, polynucleotides orpolypeptides, as well as agonists or antagonists of the presentinvention, could be used to maintain the islet function so as toalleviate, delay or prevent permanent manifestation of the disease.Also, polynucleotides or polypeptides, as well as agonists orantagonists of the present invention, could be used as an auxiliary inislet cell transplantation to improve or promote islet cell function.

Gastrointestinal Disorders

Polynucleotides or polypeptides, or agonists or antagonists of thepresent invention, may be used to detect, prevent, diagnose,prognosticate, treat, and/or ameliorate gastrointestinal diseases anddisorders, including inflammatory diseases and/or conditions,infections, cancers (e.g., intestinal neoplasms (carcinoid tumor of thesmall intestine, non-Hodgkin's lymphoma of the small intestine, smallbowl lymphoma)), and ulcers, such as peptic ulcers.

Gastrointestinal disorders include dysphagia, odynophagia, inflammationof the esophagus, peptic esophagitis, gastric reflux, submucosalfibrosis and stricturing, Mallory-Weiss lesions, leiomyomas, lipomas,epidermal cancers, adeoncarcinomas, gastric retention disorders,gastroenteritis, gastric atrophy, gastric/stomach cancers, polyps of thestomach, autoimmune disorders such as pernicious anemia, pyloricstenosis, gastritis (bacterial, viral, eosinophilic, stress-induced,chronic erosive, atrophic, plasma cell, and Menetrier's), and peritonealdiseases (e.g., chyloperioneum, hemoperitoneum, mesenteric cyst,mesenteric lymphadenitis, mesenteric vascular occlusion, panniculitis,neoplasms, peritonitis, pneumoperitoneum, bubphrenic abscess).

Gastrointestinal disorders also include disorders associated with thesmall intestine, such as malabsorption syndromes, distension, irritablebowel syndrome, sugar intolerance, celiac disease, duodenal ulcers,duodenitis, tropical sprue, Whipple's disease, intestinallymphangiectasia, Crohn's disease, appendicitis, obstructions of theileum, Meckel's diverticulum, multiple diverticula, failure of completerotation of the small and large intestine, lymphoma, and bacterial andparasitic diseases (such as Traveler's diarrhea, typhoid andparatyphoid, cholera, infection by Roundworms (Ascariasis lumbricoides),Hookworms (Ancylostoma duodenale), Threadworms (Enterobiusvermicularis), Tapeworms (Taenia saginata, Echinococcus granulosus,Diphyllobothrium spp., and T. solium).

Liver diseases and/or disorders include intrahepatic cholestasis(alagille syndrome, biliary liver cirrhosis), fatty liver (alcoholicfatty liver, reye syndrome), hepatic vein thrombosis, hepatolentriculardegeneration, hepatomegaly, hepatopulmonary syndrome, hepatorenalsyndrome, portal hypertension (esophageal and gastric varices), liverabscess (amebic liver abscess), liver cirrhosis (alcoholic, biliary andexperimental), alcoholic liver diseases (fatty liver, hepatitis,cirrhosis), parasitic (hepatic echinococcosis, fascioliasis, amebicliver abscess), jaundice (hemolytic, hepatocellular, and cholestatic),cholestasis, portal hypertension, liver enlargement, ascites, hepatitis(alcoholic hepatitis, animal hepatitis, chronic hepatitis (autoimmune,hepatitis B, hepatitis C, hepatitis D, drug induced), toxic hepatitis,viral human hepatitis (hepatitis A, hepatitis B, hepatitis C, hepatitisD, hepatitis E), Wilson's disease, granulomatous hepatitis, secondarybiliary cirrhosis, hepatic encephalopathy, portal hypertension, varices,hepatic encephalopathy, primary biliary cirrhosis, primary sclerosingcholangitis, hepatocellular adenoma, hemangiomas, bile stones, liverfailure (hepatic encephalopathy, acute liver failure), and liverneoplasms (angiomyolipoma, calcified liver metastases, cystic livermetastases, epithelial tumors, fibrolamellar hepatocarcinoma, focalnodular hyperplasia, hepatic adenoma, hepatobiliary cystadenoma,hepatoblastoma, hepatocellular carcinoma, hepatoma, liver cancer, liverhemangioendothelioma, mesenchymal hamartoma, mesenchymal tumors ofliver, nodular regenerative hyperplasia, benign liver tumors (Hepaticcysts [Simple cysts, Polycystic liver disease, Hepatobiliarycystadenoma, Choledochal cyst], Mesenchymal tumors [Mesenchymalhamartoma, Infantile hemangioendothelioma, Hemangioma, Peliosis hepatis,Lipomas, Inflammatory pseudotumor, Miscellaneous], Epithelial tumors[Bile duct epithelium (Bile duct hamartoma, Bile duct adenoma),Hepatocyte (Adenoma, Focal nodular hyperplasia, Nodular regenerativehyperplasia)], malignant liver tumors [hepatocellular, hepatoblastoma,hepatocellular carcinoma, cholangiocellular, cholangiocarcinoma,cystadenocarcinoma, tumors of blood vessels, angiosarcoma, Karposi'ssarcoma, hemangioendothelioma, other tumors, embryonal sarcoma,fibrosarcoma, leiomyosarcoma, rhabdomyosarcoma, carcinosarcoma,teratoma, carcinoid, squamous carcinoma, primary lymphoma]), peliosishepatis, erythrohepatic porphyria, hepatic porphyria (acute intermittentporphyria, porphyria cutanea tarda), Zellweger syndrome).

Pancreatic diseases and/or disorders include acute pancreatitis, chronicpancreatitis (acute necrotizing pancreatitis, alcoholic pancreatitis),neoplasms (adenocarcinoma of the pancreas, cystadenocarcinoma,insulinoma, gastrinoma, and glucagonoma, cystic neoplasms, islet-celltumors, pancreoblastoma), and other pancreatic diseases (e.g., cysticfibrosis, cyst (pancreatic pseudocyst, pancreatic fistula,insufficiency)).

Gallbladder diseases include gallstones (cholelithiasis andcholedocholithiasis), postcholecystectomy syndrome, diverticulosis ofthe gallbladder, acute cholecystitis, chronic cholecystitis, bile ducttumors, and mucocele.

Diseases and/or disorders of the large intestine includeantibiotic-associated colitis, diverticulitis, ulcerative colitis,acquired megacolon, abscesses, fungal and bacterial infections,anorectal disorders (e.g., fissures, hemorrhoids), colonic diseases(colitis, colonic neoplasms [colon cancer, adenomatous colon polyps(e.g., villous adenoma), colon carcinoma, colorectal cancer], colonicdiverticulitis, colonic diverticulosis, megacolon [Hirschsprung disease,toxic megacolon]; sigmoid diseases [proctocolitis, sigmoin neoplasms]),constipation, Crohn's disease, diarrhea (infantile diarrhea, dysentery),duodenal diseases (duodenal neoplasms, duodenal obstruction, duodenalulcer, duodenitis), enteritis (enterocolitis), HIV enteropathy, ilealdiseases (ileal neoplasms, ileitis), immunoproliferative smallintestinal disease, inflammatory bowel disease (ulcerative colitis,Crohn's disease), intestinal atresia, parasitic diseases (anisakiasis,balantidiasis, blastocystis infections, cryptosporidiosis,dientamoebiasis, amebic dysentery, giardiasis), intestinal fistula(rectal fistula), intestinal neoplasms (cecal neoplasms, colonicneoplasms, duodenal neoplasms, ileal neoplasms, intestinal polyps,jejunal neoplasms, rectal neoplasms), intestinal obstruction (afferentloop syndrome, duodenal obstruction, impacted feces, intestinalpseudo-obstruction [cecal volvulus], intussusception), intestinalperforation, intestinal polyps (colonic polyps, gardner syndrome,peutz-jeghers syndrome), jejunal diseases (jejunal neoplasms),malabsorption syndromes (blind loop syndrome, celiac disease, lactoseintolerance, short bowl syndrome, tropical sprue, whipple's disease),mesenteric vascular occlusion, pneumatosis cystoides intestinalis,protein-losing enteropathies (intestinal lymphagiectasis), rectaldiseases (anus diseases, fecal incontinence, hemorrhoids, proctitis,rectal fistula, rectal prolapse, rectocele), peptic ulcer (duodenalulcer, peptic esophagitis, hemorrhage, perforation, stomach ulcer,Zollinger-Ellison syndrome), postgastrectomy syndromes (dumpingsyndrome), stomach diseases (e.g., achlorhydria, duodenogastric reflux(bile reflux), gastric antral vascular ectasia, gastric fistula, gastricoutlet obstruction, gastritis (atrophic or hypertrophic), gastroparesis,stomach dilatation, stomach diverticulum, stomach neoplasms (gastriccancer, gastric polyps, gastric adenocarcinoma, hyperplastic gastricpolyp), stomach rupture, stomach ulcer, stomach volvulus), tuberculosis,visceroptosis, vomiting (e.g., hematemesis, hyperemesis gravidarum,postoperative nausea and vomiting) and hemorrhagic colitis.

Further diseases and/or disorders of the gastrointestinal system includebiliary tract diseases, such as, gastroschisis, fistula (e.g., biliaryfistula, esophageal fistula, gastric fistula, intestinal fistula,pancreatic fistula), neoplasms (e.g., biliary tract neoplasms,esophageal neoplasms, such as adenocarcinoma of the esophagus,esophageal squamous cell carcinoma, gastrointestinal neoplasms,pancreatic neoplasms, such as adenocarcinoma of the pancreas, mucinouscystic neoplasm of the pancreas, pancreatic cystic neoplasms,pancreatoblastoma, and peritoneal neoplasms), esophageal disease (e.g.,bullous diseases, candidiasis, glycogenic acanthosis, ulceration,barrett esophagus varices, atresia, cyst, diverticulum (e.g., Zenker'sdiverticulum), fistula (e.g., tracheoesophageal fistula), motilitydisorders (e.g., CREST syndrome, deglutition disorders, achalasia,spasm, gastroesophageal reflux), neoplasms, perforation (e.g., Boerhaavesyndrome, Mallory-Weiss syndrome), stenosis, esophagitis, diaphragmatichernia (e.g., hiatal hernia); gastrointestinal diseases, such as,gastroenteritis (e.g., cholera morbus, norwalk virus infection),hemorrhage (e.g., hematemesis, melena, peptic ulcer hemorrhage), stomachneoplasms (gastric cancer, gastric polyps, gastric adenocarcinoma,stomach cancer)), hernia (e.g., congenital diaphragmatic hernia, femoralhernia, inguinal hernia, obturator hernia, umbilical hernia, ventralhernia), and intestinal diseases (e.g., cecal diseases (appendicitis,cecal neoplasms)).

Chemotaxis

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention may have chemotaxis activity. A chemotaxicmolecule attracts or mobilizes cells (e.g., monocytes, fibroblasts,neutrophils, T-cells, mast cells, eosinophils, epithelial and/orendothelial cells) to a particular site in the body, such asinflammation, infection, or site of hyperproliferation. The mobilizedcells can then fight off and/or heal the particular trauma orabnormality.

Polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention may increase chemotaxic activity of particularcells. These chemotactic molecules can then be used to treatinflammation, infection, hyperproliferative disorders, or any immunesystem disorder by increasing the number of cells targeted to aparticular location in the body. For example, chemotaxic molecules canbe used to treat wounds and other trauma to tissues by attracting immunecells to the injured location. Chemotactic molecules of the presentinvention can also attract fibroblasts, which can be used to treatwounds.

It is also contemplated that polynucleotides or polypeptides, as well asagonists or antagonists of the present invention may inhibit chemotacticactivity. These molecules could also be used to treat disorders. Thus,polynucleotides or polypeptides, as well as agonists or antagonists ofthe present invention could be used as an inhibitor of chemotaxis.

Binding Activity

A polypeptide of the present invention may be used to screen formolecules that bind to the polypeptide or for molecules to which thepolypeptide binds. The binding of the polypeptide and the molecule mayactivate (agonist), increase, inhibit (antagonist), or decrease activityof the polypeptide or the molecule bound. Examples of such moleculesinclude antibodies, oligonucleotides, proteins (e.g., receptors), orsmall molecules.

Preferably, the molecule is closely related to the natural ligand of thepolypeptide, e.g., a fragment of the ligand, or a natural substrate, aligand, a structural or functional mimetic. (See, Coligan et al.,Current Protocols in Immunology 1(2):Chapter 5 (1991)). Similarly, themolecule can be closely related to the natural receptor to which thepolypeptide binds, or at least, a fragment of the receptor capable ofbeing bound by the polypeptide (e.g., active site). In either case, themolecule can be rationally designed using known techniques.

Preferably, the screening for these molecules involves producingappropriate cells which express the polypeptide. Preferred cells includecells from mammals, yeast, Drosophila, or E. coli. Cells expressing thepolypeptide (or cell membrane containing the expressed polypeptide) arethen preferably contacted with a test compound potentially containingthe molecule to observe binding, stimulation, or inhibition of activityof either the polypeptide or the molecule.

The assay may simply test binding of a candidate compound to thepolypeptide, wherein binding is detected by a label, or in an assayinvolving competition with a labeled competitor. Further, the assay maytest whether the candidate compound results in a signal generated bybinding to the polypeptide.

Alternatively, the assay can be carried out using cell-freepreparations, polypeptide/molecule affixed to a solid support, chemicallibraries, or natural product mixtures. The assay may also simplycomprise the steps of mixing a candidate compound with a solutioncontaining a polypeptide, measuring polypeptide/molecule activity orbinding, and comparing the polypeptide/molecule activity or binding to astandard.

Preferably, an ELISA assay can measure polypeptide level or activity ina sample (e.g., biological sample) using a monoclonal or polyclonalantibody. The antibody can measure polypeptide level or activity byeither binding, directly or indirectly, to the polypeptide or bycompeting with the polypeptide for a substrate.

Additionally, the receptor to which the polypeptide of the presentinvention binds can be identified by numerous methods known to those ofskill in the art, for example, ligand panning and FACS sorting (Coligan,et al., Current Protocols in Immun., 1(2), Chapter 5, (1991)). Forexample, expression cloning is employed wherein polyadenylated RNA isprepared from a cell responsive to the polypeptides, for example, NIH3T3cells which are known to contain multiple receptors for the FGF familyproteins, and SC-3 cells, and a cDNA library created from this RNA isdivided into pools and used to transfect COS cells or other cells thatare not responsive to the polypeptides. Transfected cells which aregrown on glass slides are exposed to the polypeptide of the presentinvention, after they have been labeled. The polypeptides can be labeledby a variety of means including iodination or inclusion of a recognitionsite for a site-specific protein kinase.

Following fixation and incubation, the slides are subjected toauto-radiographic analysis. Positive pools are identified and sub-poolsare prepared and re-transfected using an iterative sub-pooling andre-screening process, eventually yielding a single clones that encodesthe putative receptor.

As an alternative approach for receptor identification, the labeledpolypeptides can be photoaffinity linked with cell membrane or extractpreparations that express the receptor molecule. Cross-linked materialis resolved by PAGE analysis and exposed to X-ray film. The labeledcomplex containing the receptors of the polypeptides can be excised,resolved into peptide fragments, and subjected to proteinmicrosequencing. The amino acid sequence obtained from microsequencingwould be used to design a set of degenerate oligonucleotide probes toscreen a cDNA library to identify the genes encoding the putativereceptors.

Moreover, the techniques of gene-shuffling, motif-shuffling,exon-shuffling, and/or codon-shuffling (collectively referred to as “DNAshuffling”) may be employed to modulate the activities of thepolypeptide of the present invention thereby effectively generatingagonists and antagonists of the polypeptide of the present invention.See generally, U.S. Pat. Nos. 5,605,793, 5,811,238, 5,830,721,5,834,252, and 5,837,458, and Patten, P. A., et al., Curr. OpinionBiotechnol. 8:724-33 (1997); Harayama, S. Trends Biotechnol. 16(2):76-82(1998); Hansson, L. O., et al., J. Mol. Biol. 287:265-76 (1999); andLorenzo, M. M. and Blasco, R. Biotechniques 24(2):308-13 (1998); each ofthese patents and publications are hereby incorporated by reference). Inone embodiment, alteration of polynucleotides and correspondingpolypeptides may be achieved by DNA shuffling. DNA shuffling involvesthe assembly of two or more DNA segments into a desired molecule byhomologous, or site-specific, recombination. In another embodiment,polynucleotides and corresponding polypeptides may be altered by beingsubjected to random mutagenesis by error-prone PCR, random nucleotideinsertion or other methods prior to recombination. In anotherembodiment, one or more components, motifs, sections, parts, domains,fragments, etc., of the polypeptide of the present invention may berecombined with one or more components, motifs, sections, parts,domains, fragments, etc. of one or more heterologous molecules. Inpreferred embodiments, the heterologous molecules are family members. Infurther preferred embodiments, the heterologous molecule is a growthfactor such as, for example, platelet-derived growth factor (PDGF),insulin-like growth factor (IGF-I), transforming growth factor(TGF)-alpha, epidermal growth factor (EGF), fibroblast growth factor(FGF), TGF-beta, bone morphogenetic protein (BMP)-2, BMP-4, BMP-5,BMP-6, BMP-7, activins A and B, decapentaplegic (dpp), 60A, OP-2,dorsalin, growth differentiation factors (GDFs), nodal, MIS,inhibin-alpha, TGF-beta1, TGF-beta2, TGF-beta3, TGF-beta5, andglial-derived neurotrophic factor (GDNF).

Other preferred fragments are biologically active fragments of thepolypeptide of the present invention. Biologically active fragments arethose exhibiting activity similar, but not necessarily identical, to anactivity of the polypeptide of the present invention. The biologicalactivity of the fragments may include an improved desired activity, or adecreased undesirable activity.

Additionally, this invention provides a method of screening compounds toidentify those which modulate the action of the polypeptide of thepresent invention. An example of such an assay comprises combining amammalian fibroblast cell, a the polypeptide of the present invention,the compound to be screened and ³[H] thymidine under cell cultureconditions where the fibroblast cell would normally proliferate. Acontrol assay may be performed in the absence of the compound to bescreened and compared to the amount of fibroblast proliferation in thepresence of the compound to determine if the compound stimulatesproliferation by determining the uptake of ³[H] thymidine in each case.The amount of fibroblast cell proliferation is measured by liquidscintillation chromatography which measures the incorporation of ³[H]thymidine. Both agonist and antagonist compounds may be identified bythis procedure.

In another method, a mammalian cell or membrane preparation expressing areceptor for a polypeptide of the present invention is incubated with alabeled polypeptide of the present invention in the presence of thecompound. The ability of the compound to enhance or block thisinteraction could then be measured. Alternatively, the response of aknown second messenger system following interaction of a compound to bescreened and the receptor is measured and the ability of the compound tobind to the receptor and elicit a second messenger response is measuredto determine if the compound is a potential agonist or antagonist. Suchsecond messenger systems include but are not limited to, cAMP guanylatecyclase, ion channels or phosphoinositide hydrolysis.

All of these above assays can be used as diagnostic or prognosticmarkers. The molecules discovered using these assays can be used totreat disease or to bring about a particular result in a patient (e.g.,blood vessel growth) by activating or inhibiting thepolypeptide/molecule. Moreover, the assays can discover agents which mayinhibit or enhance the production of the polypeptides of the inventionfrom suitably manipulated cells or tissues.

Therefore, the invention includes a method of identifying compoundswhich bind to a polypeptide of the invention comprising the steps of:(a) incubating a candidate binding compound with a polypeptide of thepresent invention; and (b) determining if binding has occurred.Moreover, the invention includes a method of identifyingagonists/antagonists comprising the steps of: (a) incubating a candidatecompound with a polypeptide of the present invention, (b) assaying abiological activity, and (b) determining if a biological activity of thepolypeptide has been altered.

Targeted Delivery

In another embodiment, the invention provides a method of deliveringcompositions to targeted cells expressing a receptor for a polypeptideof the invention, or cells expressing a cell bound form of a polypeptideof the invention.

As discussed herein, polypeptides or antibodies of the invention may beassociated with heterologous polypeptides, heterologous nucleic acids,toxins, or prodrugs via hydrophobic, hydrophilic, ionic and/or covalentinteractions. In one embodiment, the invention provides a method for thespecific delivery of compositions of the invention to cells byadministering polypeptides of the invention (including antibodies) thatare associated with heterologous polypeptides or nucleic acids. In oneexample, the invention provides a method for delivering a therapeuticprotein into the targeted cell. In another example, the inventionprovides a method for delivering a single stranded nucleic acid (e.g.,antisense or ribozymes) or double stranded nucleic acid (e.g., DNA thatcan integrate into the cell's genome or replicate episomally and thatcan be transcribed) into the targeted cell.

In another embodiment, the invention provides a method for the specificdestruction of cells (e.g., the destruction of tumor cells) byadministering polypeptides of the invention (e.g., polypeptides of theinvention or antibodies of the invention) in association with toxins orcytotoxic prodrugs.

By “toxin” is meant compounds that bind and activate endogenouscytotoxic effector systems, radioisotopes, holotoxins, modified toxins,catalytic subunits of toxins, or any molecules or enzymes not normallypresent in or on the surface of a cell that under defined conditionscause the cell's death. Toxins that may be used according to the methodsof the invention include, but are not limited to, radioisotopes known inthe art, compounds such as, for example, antibodies (or complementfixing containing portions thereof) that bind an inherent or inducedendogenous cytotoxic effector system, thymidine kinase, endonuclease,RNAse, alpha toxin, ricin, abrin, Pseudomonas exotoxin A, diphtheriatoxin, saporin, momordin, gelonin, pokeweed antiviral protein,alpha-sarcin and cholera toxin. By “cytotoxic prodrug” is meant anon-toxic compound that is converted by an enzyme, normally present inthe cell, into a cytotoxic compound. Cytotoxic prodrugs that may be usedaccording to the methods of the invention include, but are not limitedto, glutamyl derivatives of benzoic acid mustard alkylating agent,phosphate derivatives of etoposide or mitomycin C, cytosine arabinoside,daunorubisin, and phenoxyacetamide derivatives of doxorubicin.

Drug Screening

Further contemplated is the use of the polypeptides of the presentinvention, or the polynucleotides encoding these polypeptides, to screenfor molecules which modify the activities of the polypeptides of thepresent invention. Such a method would include contacting thepolypeptide of the present invention with a selected compound(s)suspected of having antagonist or agonist activity, and assaying theactivity of these polypeptides following binding.

This invention is particularly useful for screening therapeuticcompounds by using the polypeptides of the present invention, or bindingfragments thereof, in any of a variety of drug screening techniques. Thepolypeptide or fragment employed in such a test may be affixed to asolid support, expressed on a cell surface, free in solution, or locatedintracellularly. One method of drug screening utilizes eukaryotic orprokaryotic host cells that are stably transformed with recombinantnucleic acids expressing the polypeptide or fragment. Drugs are screenedagainst such transformed cells in competitive binding assays. One maymeasure, for example, the formulation of complexes between the agentbeing tested and a polypeptide of the present invention.

Thus, the present invention provides methods of screening for drugs orany other agents that affect activities mediated by the polypeptides ofthe present invention. These methods comprise contacting such an agentwith a polypeptide of the present invention or a fragment thereof andassaying for the presence of a complex between the agent and thepolypeptide or a fragment thereof, by methods well known in the art. Insuch a competitive binding assay, the agents to screen are typicallylabeled. Following incubation, free agent is separated from that presentin bound form, and the amount of free or uncomplexed label is a measureof the ability of a particular agent to bind to the polypeptides of thepresent invention.

Another technique for drug screening provides high throughput screeningfor compounds having suitable binding affinity to the polypeptides ofthe present invention, and is described in great detail in EuropeanPatent Application 84/03564, published on Sep. 13, 1984, which isincorporated herein by reference herein. Briefly stated, large numbersof different small peptide test compounds are synthesized on a solidsubstrate, such as plastic pins or some other surface. The peptide testcompounds are reacted with polypeptides of the present invention andwashed. Bound polypeptides are then detected by methods well known inthe art. Purified polypeptides are coated directly onto plates for usein the aforementioned drug screening techniques. In addition,non-neutralizing antibodies may be used to capture the peptide andimmobilize it on the solid support.

This invention also contemplates the use of competitive drug screeningassays in which neutralizing antibodies capable of binding polypeptidesof the present invention specifically compete with a test compound forbinding to the polypeptides or fragments thereof. In this manner, theantibodies are used to detect the presence of any peptide which sharesone or more antigenic epitopes with a polypeptide of the invention.

Antisense And Ribozyme (Antagonists) In specific embodiments,antagonists according to the present invention are nucleic acidscorresponding to the sequences contained in SEQ ID NO:X, or thecomplementary strand thereof, and/or to cDNA sequences contained in cDNAATCC Deposit No: Z identified for example, in Table 1A and/or 1B. In oneembodiment, antisense sequence is generated internally, by the organism,in another embodiment, the antisense sequence is separately administered(see, for example, O'Connor, J., Neurochem. 56:560 (1991).Oligodeoxynucleotides as Antisense Inhibitors of Gene Expression, CRCPress, Boca Raton, Fla. (1988). Antisense technology can be used tocontrol gene expression through antisense DNA or RNA, or throughtriple-helix formation. Antisense techniques are discussed for example,in Okano, J., Neurochem. 56:560 (1991); Oligodeoxynucleotides asAntisense Inhibitors of Gene Expression, CRC Press, Boca Raton, Fla.(1988). Triple helix formation is discussed in, for instance, Lee etal., Nucleic Acids Research 6:3073 (1979); Cooney et al., Science241:456 (1988); and Dervan et al., Science 251:1300 (1991). The methodsare based on binding of a polynucleotide to a complementary DNA or RNA.

For example, the use of c-myc and c-myb antisense RNA constructs toinhibit the growth of the non-lymphocytic leukemia cell line HL-60 andother cell lines was previously described. (Wickstrom et al. (1988);Anfossi et al. (1989)). These experiments were performed in vitro byincubating cells with the oligoribonucleotide. A similar procedure forin vivo use is described in WO 91/15580. Briefly, a pair ofoligonucleotides for a given antisense RNA is produced as follows: Asequence complimentary to the first 15 bases of the open reading frameis flanked by an EcoR1 site on the 5 end and a HindIII site on the 3end. Next, the pair of oligonucleotides is heated at 90° C. for oneminute and then annealed in 2× ligation buffer (20 mM TRIS HCl pH 7.5,10 mM MgCl2, 10 MM dithiothreitol (DTT) and 0.2 mM ATP) and then ligatedto the EcoR1/Hind III site of the retroviral vector PMV7 (WO 91/15580).

For example, the 5′ coding portion of a polynucleotide that encodes thepolypeptide of the present invention may be used to design an antisenseRNA oligonucleotide of from about 10 to 40 base pairs in length. A DNAoligonucleotide is designed to be complementary to a region of the geneinvolved in transcription thereby preventing transcription and theproduction of the receptor. The antisense RNA oligonucleotide hybridizesto the mRNA in vivo and blocks translation of the mRNA molecule intoreceptor polypeptide.

In one embodiment, the antisense nucleic acid of the invention isproduced intracellularly by transcription from an exogenous sequence.For example, a vector or a portion thereof, is transcribed, producing anantisense nucleic acid (RNA) of the invention. Such a vector wouldcontain a sequence encoding the antisense nucleic acid. Such a vectorcan remain episomal or become chromosomally integrated, as long as itcan be transcribed to produce the desired antisense RNA. Such vectorscan be constructed by recombinant DNA technology methods standard in theart. Vectors can be plasmid, viral, or others known in the art, used forreplication and expression in vertebrate cells. Expression of thesequence encoding the polypeptide of the present invention or fragmentsthereof, can be by any promoter known in the art to act in vertebrate,preferably human cells. Such promoters can be inducible or constitutive.Such promoters include, but are not limited to, the SV40 early promoterregion (Bernoist and Chambon, Nature 29:304-310 (1981), the promotercontained in the 3′ long terminal repeat of Rous sarcoma virus (Yamamotoet al., Cell 22:787-797 (1980), the herpes thymidine promoter (Wagner etal., Proc. Natl. Acad. Sci. U.S.A. 78:1441-1445 (1981), the regulatorysequences of the metallothionein gene (Brinster, et al., Nature296:39-42 (1982)), etc.

The antisense nucleic acids of the invention comprise a sequencecomplementary to at least a portion of an RNA transcript of a gene ofthe present invention. However, absolute complementarity, althoughpreferred, is not required. A sequence “complementary to at least aportion of an RNA,” referred to herein, means a sequence havingsufficient complementarity to be able to hybridize with the RNA, forminga stable duplex; in the case of double stranded antisense nucleic acids,a single strand of the duplex DNA may thus be tested, or triplexformation may be assayed. The ability to hybridize will depend on boththe degree of complementarity and the length of the antisense nucleicacid. Generally, the larger the hybridizing nucleic acid, the more basemismatches with a RNA it may contain and still form a stable duplex (ortriplex as the case may be). One skilled in the art can ascertain atolerable degree of mismatch by use of standard procedures to determinethe melting point of the hybridized complex.

Oligonucleotides that are complementary to the 5′ end of the message,e.g., the 5′ untranslated sequence up to and including the AUGinitiation codon, should work most efficiently at inhibitingtranslation. However, sequences complementary to the 3′ untranslatedsequences of mRNAs have been shown to be effective at inhibitingtranslation of mRNAs as well. See generally, Wagner, R., 1994, Nature372:333-335. Thus, oligonucleotides complementary to either the 5′- or3′-non-translated, non-coding regions of polynucleotide sequencesdescribed herein could be used in an antisense approach to inhibittranslation of endogenous mRNA. Oligonucleotides complementary to the 5′untranslated region of the mRNA should include the complement of the AUGstart codon. Antisense oligonucleotides complementary to mRNA codingregions are less efficient inhibitors of translation but could be usedin accordance with the invention. Whether designed to hybridize to the5′-, 3′- or coding region of mRNA of the present invention, antisensenucleic acids should be at least six nucleotides in length, and arepreferably oligonucleotides ranging from 6 to about 50 nucleotides inlength. In specific aspects the oligonucleotide is at least 10nucleotides, at least 17 nucleotides, at least 25 nucleotides or atleast 50 nucleotides.

The polynucleotides of the invention can be DNA or RNA or chimericmixtures or derivatives or modified versions thereof, single-stranded ordouble-stranded. The oligonucleotide can be modified at the base moiety,sugar moiety, or phosphate backbone, for example, to improve stabilityof the molecule, hybridization, etc. The oligonucleotide may includeother appended groups such as peptides (e.g., for targeting host cellreceptors in vivo), or agents facilitating transport across the cellmembrane (see, e.g., Letsinger et al., 1989, Proc. Natl. Acad. Sci.U.S.A. 86:6553-6556; Lemaitre et al., 1987, Proc. Natl. Acad. Sci.84:648-652; PCT Publication No. WO88/09810, published Dec. 15, 1988) orthe blood-brain barrier (see, e.g., PCT Publication No. WO89/10134,published Apr. 25, 1988), hybridization-triggered cleavage agents. (See,e.g., Krol et al., 1988, BioTechniques 6:958-976) or intercalatingagents. (See, e.g., Zon, 1988, Pharm. Res. 5:539-549). To this end, theoligonucleotide may be conjugated to another molecule, e.g., a peptide,hybridization triggered cross-linking agent, transport agent,hybridization-triggered cleavage agent, etc.

The antisense oligonucleotide may comprise at least one modified basemoiety which is selected from the group including, but not limited to,5-fluorouracil, 5-bromouracil, 5-chlorouracil, 5-iodouracil,hypoxanthine, xantine, 4-acetylcytosine,5-(carboxyhydroxylmethyl)uracil,5-carboxymethylaminomethyl-2-thiouridine,5-carboxymethylaminomethyluracil, dihydrouracil,beta-D-galactosylqueosine, inosine, N6-isopentenyladenine,1-methylguanine, 1-methylinosine, 2,2-dimethylguanine, 2-methyladenine,2-methylguanine, 3-methylcytosine, 5-methylcytosine, N6-adenine,7-methylguanine, 5-methylaminomethyluracil,5-methoxyaminomethyl-2-thiouracil, beta-D-mannosylqueosine,5′-methoxycarboxymethyluracil, 5-methoxyuracil,2-methylthio-N6-isopentenyladenine, uracil-5-oxyacetic acid (v),wybutoxosine, pseudouracil, queosine, 2-thiocytosine,5-methyl-2-thiouracil, 2-thiouracil, 4-thiouracil, 5-methyluracil,uracil-5-oxyacetic acid methylester, uracil-5-oxyacetic acid (v),5-methyl-2-thiouracil, 3-(3-amino-3-N-2-carboxypropyl)uracil, (acp3)w,and 2,6-diaminopurine.

The antisense oligonucleotide may also comprise at least one modifiedsugar moiety selected from the group including, but not limited to,arabinose, 2-fluoroarabinose, xylulose, and hexose.

In yet another embodiment, the antisense oligonucleotide comprises atleast one modified phosphate backbone selected from the group including,but not limited to, a phosphorothioate, a phosphorodithioate, aphosphoramidothioate, a phosphoramidate, a phosphordiamidate, amethylphosphonate, an alkyl phosphotriester, and a formacetal or analogthereof.

In yet another embodiment, the antisense oligonucleotide is ana-anomeric oligonucleotide. An a-anomeric oligonucleotide forms specificdouble-stranded hybrids with complementary RNA in which, contrary to theusual b-units, the strands run parallel to each other (Gautier et al.,1987, Nucl. Acids Res. 15:6625-6641). The oligonucleotide is a2′-0-methylribonucleotide (Inoue et al., 1987, Nucl. Acids Res.15:6131-6148), or a chimeric RNA-DNA analogue (Inoue et al., 1987, FEBSLett. 215:327-330).

Polynucleotides of the invention may be synthesized by standard methodsknown in the art, e.g. by use of an automated DNA synthesizer (such asare commercially available from Biosearch, Applied Biosystems, etc.). Asexamples, phosphorothioate oligonucleotides may be synthesized by themethod of Stein et al. (1988, Nucl. Acids Res. 16:3209),methylphosphonate oligonucleotides can be prepared by use of controlledpore glass polymer supports (Sarin et al., 1988, Proc. Natl. Acad. Sci.U.S.A. 85:7448-7451), etc.

While antisense nucleotides complementary to the coding region sequencecould be used, those complementary to the transcribed untranslatedregion are most preferred.

Potential antagonists according to the invention also include catalyticRNA, or a ribozyme (See, e.g., PCT International Publication WO90/11364, published Oct. 4, 1990; Sarver et al, Science 247:1222-1225(1990). While ribozymes that cleave mRNA at site specific recognitionsequences can be used to destroy mRNAs, the use of hammerhead ribozymesis preferred. Hammerhead ribozymes cleave mRNAs at locations dictated byflanking regions that form complementary base pairs with the targetmRNA. The sole requirement is that the target mRNA have the followingsequence of two bases: 5′-UG-3′. The construction and production ofhammerhead ribozymes is well known in the art and is described morefully in Haseloff and Gerlach, Nature 334:585-591 (1988). There arenumerous potential hammerhead ribozyme cleavage sites within thenucleotide sequence of SEQ ID NO:X. Preferably, the ribozyme isengineered so that the cleavage recognition site is located near the 5′end of the mRNA; i.e., to increase efficiency and minimize theintracellular accumulation of non-functional mRNA transcripts.

As in the antisense approach, the ribozymes of the invention can becomposed of modified oligonucleotides (e.g., for improved stability,targeting, etc.) and should be delivered to cells which express in vivo.DNA constructs encoding the ribozyme may be introduced into the cell inthe same manner as described above for the introduction of antisenseencoding DNA. A preferred method of delivery involves using a DNAconstruct “encoding” the ribozyme under the control of a strongconstitutive promoter, such as, for example, pol III or pol II promoter,so that transfected cells will produce sufficient quantities of theribozyme to destroy endogenous messages and inhibit translation. Sinceribozymes unlike antisense molecules, are catalytic, a lowerintracellular concentration is required for efficiency.

Antagonist/agonist compounds may be employed to inhibit the cell growthand proliferation effects of the polypeptides of the present inventionon neoplastic cells and tissues, i.e. stimulation of angiogenesis oftumors, and, therefore, retard or prevent abnormal cellular growth andproliferation, for example, in tumor formation or growth.

The antagonist/agonist may also be employed to prevent hyper-vasculardiseases, and prevent the proliferation of epithelial lens cells afterextracapsular cataract surgery. Prevention of the mitogenic activity ofthe polypeptides of the present invention may also be desirous in casessuch as restenosis after balloon angioplasty.

The antagonist/agonist may also be employed to prevent the growth ofscar tissue during wound healing.

The antagonist/agonist may also be employed to treat the diseasesdescribed herein.

Thus, the invention provides a method of treating disorders or diseases,including but not limited to the disorders or diseases listed throughoutthis application, associated with overexpression of a polynucleotide ofthe present invention by administering to a patient (a) an antisensemolecule directed to the polynucleotide of the present invention, and/or(b) a ribozyme directed to the polynucleotide of the present invention.

Binding Peptides and Other Molecules

The invention also encompasses screening methods for identifyingpolypeptides and nonpolypeptides that bind polypeptides of theinvention, and the binding molecules identified thereby. These bindingmolecules are useful, for example, as agonists and antagonists of thepolypeptides of the invention. Such agonists and antagonists can beused, in accordance with the invention, in the therapeutic embodimentsdescribed in detail, below.

This method comprises the steps of:

contacting polypeptides of the invention with a plurality of molecules;and

identifying a molecule that binds the polypeptides of the invention.

The step of contacting the polypeptides of the invention with theplurality of molecules may be effected in a number of ways. For example,one may contemplate immobilizing the polypeptides on a solid support andbringing a solution of the plurality of molecules in contact with theimmobilized polypeptides. Such a procedure would be akin to an affinitychromatographic process, with the affinity matrix being comprised of theimmobilized polypeptides of the invention. The molecules having aselective affinity for the polypeptides can then be purified by affinityselection. The nature of the solid support, process for attachment ofthe polypeptides to the solid support, solvent, and conditions of theaffinity isolation or selection are largely conventional and well knownto those of ordinary skill in the art.

Alternatively, one may also separate a plurality of polypeptides intosubstantially separate fractions comprising a subset of or individualpolypeptides. For instance, one can separate the plurality ofpolypeptides by gel electrophoresis, column chromatography, or likemethod known to those of ordinary skill for the separation ofpolypeptides. The individual polypeptides can also be produced by atransformed host cell in such a way as to be expressed on or about itsouter surface (e.g., a recombinant phage). Individual isolates can thenbe “probed” by the polypeptides of the invention, optionally in thepresence of an inducer should one be required for expression, todetermine if any selective affinity interaction takes place between thepolypeptides and the individual clone. Prior to contacting thepolypeptides with each fraction comprising individual polypeptides, thepolypeptides could first be transferred to a solid support foradditional convenience. Such a solid support may simply be a piece offilter membrane, such as one made of nitrocellulose or nylon. In thismanner, positive clones could be identified from a collection oftransformed host cells of an expression library, which harbor a DNAconstruct encoding a polypeptide having a selective affinity forpolypeptides of the invention. Furthermore, the amino acid sequence ofthe polypeptide having a selective affinity for the polypeptides of theinvention can be determined directly by conventional means or the codingsequence of the DNA encoding the polypeptide can frequently bedetermined more conveniently. The primary sequence can then be deducedfrom the corresponding DNA sequence. If the amino acid sequence is to bedetermined from the polypeptide itself, one may use microsequencingtechniques. The sequencing technique may include mass spectroscopy.

In certain situations, it may be desirable to wash away any unboundpolypeptides from a mixture of the polypeptides of the invention and theplurality of polypeptides prior to attempting to determine or to detectthe presence of a selective affinity interaction. Such a wash step maybe particularly desirable when the polypeptides of the invention or theplurality of polypeptides are bound to a solid support.

The plurality of molecules provided according to this method may beprovided by way of diversity libraries, such as random or combinatorialpeptide or nonpeptide libraries which can be screened for molecules thatspecifically bind polypeptides of the invention. Many libraries areknown in the art that can be used, e.g., chemically synthesizedlibraries, recombinant (e.g., phage display libraries), and in vitrotranslation-based libraries. Examples of chemically synthesizedlibraries are described in Fodor et al., 1991, Science 251:767-773;Houghten et al., 1991, Nature 354:84-86; Lam et al., 1991, Nature354:82-84; Medynski, 1994, Bio/Technology 12:709-710; Gallop et al.,1994, J. Medicinal Chemistry 37(9):1233-1251; Ohlmeyer et al., 1993,Proc. Natl. Acad. Sci. USA 90:10922-10926; Erb et al., 1994, Proc. Natl.Acad. Sci. USA 91:11422-11426; Houghten et al., 1992, Biotechniques13:412; Jayawickreme et al., 1994, Proc. Natl. Acad. Sci. USA91:1614-1618; Salmon et al., 1993, Proc. Natl. Acad. Sci. USA90:11708-11712; PCT Publication No. WO 93/20242; and Brenner and Lerner,1992, Proc. Natl. Acad. Sci. USA 89:5381-5383.

Examples of phage display libraries are described in Scott and Smith,1990, Science 249:386-390; Devlin et al., 1990, Science, 249:404-406;Christian, R. B., et al., 1992, J. Mol. Biol. 227:711-718); Lenstra,1992, J. Immunol. Meth. 152:149-157; Kay et al., 1993, Gene 128:59-65;and PCT Publication No. WO 94/18318 dated Aug. 18, 1994.

In vitro translation-based libraries include but are not limited tothose described in PCT Publication No. WO 91/05058 dated Apr. 18, 1991;and Mattheakis et al., 1994, Proc. Natl. Acad. Sci. USA 91:9022-9026.

By way of examples of nonpeptide libraries, a benzodiazepine library(see e.g., Bunin et al., 1994, Proc. Natl. Acad. Sci. USA 91:4708-4712)can be adapted for use. Peptoid libraries (Simon et al., 1992, Proc.Natl. Acad. Sci. USA 89:9367-9371) can also be used. Another example ofa library that can be used, in which the amide functionalities inpeptides have been permethylated to generate a chemically transformedcombinatorial library, is described by Ostresh et al. (1994, Proc. Natl.Acad. Sci. USA 91:11138-11142).

The variety of non-peptide libraries that are useful in the presentinvention is great. For example, Ecker and Crooke, 1995, Bio/Technology13:351-360 list benzodiazepines, hydantoins, piperazinediones,biphenyls, sugar analogs, beta-mercaptoketones, arylacetic acids,acylpiperidines, benzopyrans, cubanes, xanthines, aminimides, andoxazolones as among the chemical species that form the basis of variouslibraries.

Non-peptide libraries can be classified broadly into two types:decorated monomers and oligomers. Decorated monomer libraries employ arelatively simple scaffold structure upon which a variety functionalgroups is added. Often the scaffold will be a molecule with a knownuseful pharmacological activity. For example, the scaffold might be thebenzodiazepine structure.

Non-peptide oligomer libraries utilize a large number of monomers thatare assembled together in ways that create new shapes that depend on theorder of the monomers. Among the monomer units that have been used arecarbamates, pyrrolinones, and morpholinos. Peptoids, peptide-likeoligomers in which the side chain is attached to the alpha amino grouprather than the alpha carbon, form the basis of another version ofnon-peptide oligomer libraries. The first non-peptide oligomer librariesutilized a single type of monomer and thus contained a repeatingbackbone. Recent libraries have utilized more than one monomer, givingthe libraries added flexibility.

Screening the libraries can be accomplished by any of a variety ofcommonly known methods. See, e.g., the following references, whichdisclose screening of peptide libraries: Parmley and Smith, 1989, Adv.Exp. Med. Biol. 251:215-218; Scott and Smith, 1990, Science 249:386-390;Fowlkes et al., 1992; BioTechniques 13:422-427; Oldenburg et al., 1992,Proc. Natl. Acad. Sci. USA 89:5393-5397; Yu et al., 1994, Cell76:933-945; Staudt et al., 1988, Science 241:577-580; Bock et al., 1992,Nature 355:564-566; Tuerk et al., 1992, Proc. Natl. Acad. Sci. USA89:6988-6992; Ellington et al., 1992, Nature 355:850-852; U.S. Pat. No.5,096,815, U.S. Pat. No. 5,223,409, and U.S. Pat. No. 5,198,346, all toLadner et al.; Rebar and Pabo, 1993, Science 263:671-673; and CTPublication No. WO 94/18318.

In a specific embodiment, screening to identify a molecule that bindspolypeptides of the invention can be carried out by contacting thelibrary members with polypeptides of the invention immobilized on asolid phase and harvesting those library members that bind to thepolypeptides of the invention. Examples of such screening methods,termed “panning” techniques are described by way of example in Parmleyand Smith, 1988, Gene 73:305-318; Fowlkes et al., 1992, BioTechniques13:422-427; PCT Publication No. WO 94/18318; and in references citedherein.

In another embodiment, the two-hybrid system for selecting interactingproteins in yeast (Fields and Song, 1989, Nature 340:245-246; Chien etal., 1991, Proc. Natl. Acad. Sci. USA 88:9578-9582) can be used toidentify molecules that specifically bind to polypeptides of theinvention.

Where the binding molecule is a polypeptide, the polypeptide can beconveniently selected from any peptide library, including random peptidelibraries, combinatorial peptide libraries, or biased peptide libraries.The term “biased” is used herein to mean that the method of generatingthe library is manipulated so as to restrict one or more parameters thatgovern the diversity of the resulting collection of molecules, in thiscase peptides.

Thus, a truly random peptide library would generate a collection ofpeptides in which the probability of finding a particular amino acid ata given position of the peptide is the same for all 20 amino acids. Abias can be introduced into the library, however, by specifying, forexample, that a lysine occur every fifth amino acid or that positions 4,8, and 9 of a decapeptide library be fixed to include only arginine.Clearly, many types of biases can be contemplated, and the presentinvention is not restricted to any particular bias. Furthermore, thepresent invention contemplates specific types of peptide libraries, suchas phage displayed peptide libraries and those that utilize a DNAconstruct comprising a lambda phage vector with a DNA insert.

As mentioned above, in the case of a binding molecule that is apolypeptide, the polypeptide may have about 6 to less than about 60amino acid residues, preferably about 6 to about 10 amino acid residues,and most preferably, about 6 to about 22 amino acids. In anotherembodiment, a binding polypeptide has in the range of 15-100 aminoacids, or 20-50 amino acids.

The selected binding polypeptide can be obtained by chemical synthesisor recombinant expression.

Other Activities

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention, as a result of the ability to stimulate vascular endothelialcell growth, may be employed in treatment for stimulatingre-vascularization of ischemic tissues due to various disease conditionssuch as thrombosis, arteriosclerosis, and other cardiovascularconditions. The polypeptide, polynucleotide, agonist, or antagonist ofthe present invention may also be employed to stimulate angiogenesis andlimb regeneration, as discussed above.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be employed for treating wounds due to injuries,burns, post-operative tissue repair, and ulcers since they are mitogenicto various cells of different origins, such as fibroblast cells andskeletal muscle cells, and therefore, facilitate the repair orreplacement of damaged or diseased tissue.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be employed stimulate neuronal growth and to treatand prevent neuronal damage which occurs in certain neuronal disordersor neuro-degenerative conditions such as Alzheimer's disease,Parkinson's disease, and AIDS-related complex. A polypeptide,polynucleotide, agonist, or antagonist of the present invention may havethe ability to stimulate chondrocyte growth, therefore, they may beemployed to enhance bone and periodontal regeneration and aid in tissuetransplants or bone grafts.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may be also be employed to prevent skin aging due to sunburnby stimulating keratinocyte growth.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be employed for preventing hair loss, since FGFfamily members activate hair-forming cells and promotes melanocytegrowth. Along the same lines, a polypeptide, polynucleotide, agonist, orantagonist of the present invention may be employed to stimulate growthand differentiation of hematopoietic cells and bone marrow cells whenused in combination with other cytokines.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be employed to maintain organs before transplantationor for supporting cell culture of primary tissues. A polypeptide,polynucleotide, agonist, or antagonist of the present invention may alsobe employed for inducing tissue of mesodermal origin to differentiate inearly embryos.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also increase or decrease the differentiation orproliferation of embryonic stem cells, besides, as discussed above,hematopoietic lineage.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be used to modulate mammalian characteristics, suchas body height, weight, hair color, eye color, skin, percentage ofadipose tissue, pigmentation, size, and shape (e.g., cosmetic surgery).Similarly, a polypeptide, polynucleotide, agonist, or antagonist of thepresent invention may be used to modulate mammalian metabolism affectingcatabolism, anabolism, processing, utilization, and storage of energy.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may be used to change a mammal's mental state or physicalstate by influencing biorhythms, caricadic rhythms, depression(including depressive disorders), tendency for violence, tolerance forpain, reproductive capabilities (preferably by Activin or Inhibin-likeactivity), hormonal or endocrine levels, appetite, libido, memory,stress, or other cognitive qualities.

A polypeptide, polynucleotide, agonist, or antagonist of the presentinvention may also be used as a food additive or preservative, such asto increase or decrease storage capabilities, fat content, lipid,protein, carbohydrate, vitamins, minerals, cofactors or othernutritional components.

The above-recited applications have uses in a wide variety of hosts.Such hosts include, but are not limited to, human, murine, rabbit, goat,guinea pig, camel, horse, mouse, rat, hamster, pig, micro-pig, chicken,goat, cow, sheep, dog, cat, non-human primate, and human. In specificembodiments, the host is a mouse, rabbit, goat, guinea pig, chicken,rat, hamster, pig, sheep, dog or cat. In preferred embodiments, the hostis a mammal. In most preferred embodiments, the host is a human.

Other Preferred Embodiments

Other preferred embodiments of the claimed invention include an isolatednucleic acid molecule comprising a nucleotide sequence which is at least95% identical to a sequence of at least about 50 contiguous nucleotidesin the nucleotide sequence of SEQ ID NO:X or the complementary strandthereto, the nucleotide sequence as defined in column 5 of Table 1B orcolumns 8 and 9 of Table 2 or the complementary strand thereto, and/orcDNA contained in ATCC Deposit No: Z.

Also preferred is a nucleic acid molecule wherein said sequence ofcontiguous nucleotides is included in the nucleotide sequence of theportion of SEQ ID NO:X as defined in column 5, “ORF (From-To)”, in Table1B.1.

Also preferred is a nucleic acid molecule wherein said sequence ofcontiguous nucleotides is included in the nucleotide sequence of theportion of SEQ ID NO:X as defined in columns 8 and 9, “NT From” and “NTTo” respectively, in Table 2.

Also preferred is an isolated nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to a sequence of atleast about 150 contiguous nucleotides in the nucleotide sequence of SEQID NO:X or the complementary strand thereto, the nucleotide sequence asdefined in column 5 of Table 1B.1 or columns 8 and 9 of Table 2 or thecomplementary strand thereto, and/or cDNA contained in ATCC Deposit No:Z.

Further preferred is an isolated nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to a sequence of atleast about 500 contiguous nucleotides in the nucleotide sequence of SEQID NO:X or the complementary strand thereto, the nucleotide sequence asdefined in column 5 of Table 1B.1 or columns 8 and 9 of Table 2 or thecomplementary strand thereto, and/or cDNA contained in ATCC Deposit No:Z.

A further preferred embodiment is a nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to the nucleotidesequence of the portion of SEQ ID NO:X defined in column 5, “ORF(From-To)”, in Table 1B.1.

A further preferred embodiment is a nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to the nucleotidesequence of the portion of SEQ ID NO:X defined in columns 8 and 9, “NTFrom” and “NT To”, respectively, in Table 2.

A further preferred embodiment is an isolated nucleic acid moleculecomprising a nucleotide sequence which is at least 95% identical to thecomplete nucleotide sequence of SEQ ID NO:X or the complementary strandthereto, the nucleotide sequence as defined in column 5 of Table 1B.1 orcolumns 8 and 9 of Table 2 or the complementary strand thereto, and/orcDNA contained in ATCC Deposit No: Z.

Also preferred is an isolated nucleic acid molecule which hybridizesunder stringent hybridization conditions to a nucleic acid moleculecomprising a nucleotide sequence of SEQ ID NO:X or the complementarystrand thereto, the nucleotide sequence as defined in column 5 of Table1B.1 or columns 8 and 9 of Table 2 or the complementary strand thereto,and/or cDNA contained in ATCC Deposit No: Z, wherein said nucleic acidmolecule which hybridizes does not hybridize under stringenthybridization conditions to a nucleic acid molecule having a nucleotidesequence consisting of only A residues or of only T residues.

Also preferred is a composition of matter comprising a DNA moleculewhich comprises the cDNA contained in ATCC Deposit No: Z.

Also preferred is an isolated nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to a sequence of atleast 50 contiguous nucleotides of the cDNA sequence contained in ATCCDeposit No: Z.

Also preferred is an isolated nucleic acid molecule, wherein saidsequence of at least 50 contiguous nucleotides is included in thenucleotide sequence of an open reading frame sequence encoded by cDNAcontained in ATCC Deposit No: Z.

Also preferred is an isolated nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to sequence of atleast 150 contiguous nucleotides in the nucleotide sequence encoded bycDNA contained in ATCC Deposit No: Z.

A further preferred embodiment is an isolated nucleic acid moleculecomprising a nucleotide sequence which is at least 95% identical tosequence of at least 500 contiguous nucleotides in the nucleotidesequence encoded by cDNA contained in ATCC Deposit No: Z.

A further preferred embodiment is an isolated nucleic acid moleculecomprising a nucleotide sequence which is at least 95% identical to thecomplete nucleotide sequence encoded by cDNA contained in ATCC DepositNo: Z.

A further preferred embodiment is a method for detecting in a biologicalsample a nucleic acid molecule comprising a nucleotide sequence which isat least 95% identical to a sequence of at least 50 contiguousnucleotides in a sequence selected from the group consisting of: anucleotide sequence of SEQ ID NO:X or the complementary strand thereto;the nucleotide sequence as defined in column 5 of Table 1B.1 or columns8 and 9 of Table 2 or the complementary strand thereto; and a nucleotidesequence encoded by cDNA contained in ATCC Deposit No: Z; which methodcomprises a step of comparing a nucleotide sequence of at least onenucleic acid molecule in said sample with a sequence selected from saidgroup and determining whether the sequence of said nucleic acid moleculein said sample is at least 95% identical to said selected sequence.

Also preferred is the above method wherein said step of comparingsequences comprises determining the extent of nucleic acid hybridizationbetween nucleic acid molecules in said sample and a nucleic acidmolecule comprising said sequence selected from said group. Similarly,also preferred is the above method wherein said step of comparingsequences is performed by comparing the nucleotide sequence determinedfrom a nucleic acid molecule in said sample with said sequence selectedfrom said group. The nucleic acid molecules can comprise DNA moleculesor RNA molecules.

A further preferred embodiment is a method for identifying the species,tissue or cell type of a biological sample which method comprises a stepof detecting nucleic acid molecules in said sample, if any, comprising anucleotide sequence that is at least 95% identical to a sequence of atleast 50 contiguous nucleotides in a sequence selected from the groupconsisting of: a nucleotide sequence of SEQ ID NO:X or the complementarystrand thereto; the nucleotide sequence as defined in column 5 of Table1B.1 or columns 8 and 9 of Table 2 or the complementary strand thereto;and a nucleotide sequence of the cDNA contained in ATCC Deposit No: Z.

The method for identifying the species, tissue or cell type of abiological sample can comprise a step of detecting nucleic acidmolecules comprising a nucleotide sequence in a panel of at least twonucleotide sequences, wherein at least one sequence in said panel is atleast 95% identical to a sequence of at least 50 contiguous nucleotidesin a sequence selected from said group.

Also preferred is a method for diagnosing in a subject a pathologicalcondition associated with abnormal structure or expression of anucleotide sequence of SEQ ID NO:X or the complementary strand thereto;the nucleotide sequence as defined in column 5 of Table 1B.1 or columns8 and 9 of Table 2 or the complementary strand thereto; or the cDNAcontained in ATCC Deposit No: Z which encodes a protein, wherein themethod comprises a step of detecting in a biological sample obtainedfrom said subject nucleic acid molecules, if any, comprising anucleotide sequence that is at least 95% identical to a sequence of atleast 50 contiguous nucleotides in a sequence selected from the groupconsisting of: a nucleotide sequence of SEQ ID NO:X or the complementarystrand thereto; the nucleotide sequence as defined in column 5 of Table1B.1 or columns 8 and 9 of Table 2 or the complementary strand thereto;and a nucleotide sequence of cDNA contained in ATCC Deposit No: Z.

The method for diagnosing a pathological condition can comprise a stepof detecting nucleic acid molecules comprising a nucleotide sequence ina panel of at least two nucleotide sequences, wherein at least onesequence in said panel is at least 95% identical to a sequence of atleast 50 contiguous nucleotides in a sequence selected from said group.

Also preferred is a composition of matter comprising isolated nucleicacid molecules wherein the nucleotide sequences of said nucleic acidmolecules comprise a panel of at least two nucleotide sequences, whereinat least one sequence in said panel is at least 95% identical to asequence of at least 50 contiguous nucleotides in a sequence selectedfrom the group consisting of: a nucleotide sequence of SEQ ID NO:X orthe complementary strand thereto; the nucleotide sequence as defined incolumn 5 of Table 1B.1 or columns 8 and 9 of Table 2 or thecomplementary strand thereto; and a nucleotide sequence encoded by cDNAcontained in ATCC Deposit No: Z. The nucleic acid molecules can compriseDNA molecules or RNA molecules.

Also preferred is a composition of matter comprising isolated nucleicacid molecules wherein the nucleotide sequences of said nucleic acidmolecules comprise a DNA microarray or “chip” of at least 1, 2, 3, 4, 5,6, 7, 8, 9, 10, 15, 20, 25, 30, 40, 50, 100, 150, 200, 250, 300, 500,1000, 2000, 3000, or 4000 nucleotide sequences, wherein at least onesequence in said DNA microarray or “chip” is at least 95% identical to asequence of at least 50 contiguous nucleotides in a sequence selectedfrom the group consisting of: a nucleotide sequence of SEQ ID NO:Xwherein X is any integer as defined in Table 1A and/or 1B; and anucleotide sequence encoded by a human cDNA clone identified by a cDNA“Clone ID” in Table 1A and/or 1B.

Also preferred is an isolated polypeptide comprising an amino acidsequence at least 90% identical to a sequence of at least about 10contiguous amino acids in the polypeptide sequence of SEQ ID NO:Y; apolypeptide encoded by SEQ ID NO:X or the complementary strand thereto;the polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2; and/or a polypeptide encoded by cDNA contained inATCC Deposit No: Z.

Also preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to a sequence of at least about 30contiguous amino acids in the amino acid sequence of SEQ ID NO:Y; apolypeptide encoded by SEQ ID NO:X or the complementary strand thereto;the polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2; and/or a polypeptide encoded by cDNA contained inATCC Deposit No: Z.

Further preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to a sequence of at least about 100contiguous amino acids in the amino acid sequence of SEQ ID NO:Y; apolypeptide encoded by SEQ ID NO:X or the complementary strand thereto;the polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2; and/or a polypeptide encoded by cDNA contained inATCC Deposit No: Z.

Further preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to the complete amino acid sequence ofSEQ ID NO:Y; a polypeptide encoded by SEQ ID NO:X or the complementarystrand thereto; the polypeptide encoded by the nucleotide sequence asdefined in columns 8 and 9 of Table 2; and/or a polypeptide encoded bycDNA contained in ATCC Deposit No: Z.

Further preferred is an isolated polypeptide comprising an amino acidsequence at least 90% identical to a sequence of at least about 10contiguous amino acids in the complete amino acid sequence of apolypeptide encoded by contained in ATCC Deposit No: Z

Also preferred is a polypeptide wherein said sequence of contiguousamino acids is included in the amino acid sequence of a portion of saidpolypeptide encoded by cDNA contained in ATCC Deposit No: Z; apolypeptide encoded by SEQ ID NO:X or the complementary strand thereto;the polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2; and/or the polypeptide sequence of SEQ ID NO:Y.

Also preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to a sequence of at least about 30contiguous amino acids in the amino acid sequence of a polypeptideencoded by the cDNA contained in ATCC Deposit No: Z.

Also preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to a sequence of at least about 100contiguous amino acids in the amino acid sequence of a polypeptideencoded by cDNA contained in ATCC Deposit No: Z.

Also preferred is an isolated polypeptide comprising an amino acidsequence at least 95% identical to the amino acid sequence of apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z.

Further preferred is an isolated antibody which binds specifically to apolypeptide comprising an amino acid sequence that is at least 90%identical to a sequence of at least 10 contiguous amino acids in asequence selected from the group consisting of: a polypeptide sequenceof SEQ ID NO:Y; a polypeptide encoded by SEQ ID NO:X or thecomplementary strand thereto; the polypeptide encoded by the nucleotidesequence as defined in columns 8 and 9 of Table 2; and a polypeptideencoded by the cDNA contained in ATCC Deposit No: Z.

Further preferred is a method for detecting in a biological sample apolypeptide comprising an amino acid sequence which is at least 90%identical to a sequence of at least 10 contiguous amino acids in asequence selected from the group consisting of: a polypeptide sequenceof SEQ ID NO:Y; a polypeptide encoded by SEQ ID NO:X or thecomplementary strand thereto; the polypeptide encoded by the nucleotidesequence as defined in columns 8 and 9 of Table 2; and a polypeptideencoded by the cDNA contained in ATCC Deposit No: Z; which methodcomprises a step of comparing an amino acid sequence of at least onepolypeptide molecule in said sample with a sequence selected from saidgroup and determining whether the sequence of said polypeptide moleculein said sample is at least 90% identical to said sequence of at least 10contiguous amino acids.

Also preferred is the above method wherein said step of comparing anamino acid sequence of at least one polypeptide molecule in said samplewith a sequence selected from said group comprises determining theextent of specific binding of polypeptides in said sample to an antibodywhich binds specifically to a polypeptide comprising an amino acidsequence that is at least 90% identical to a sequence of at least 10contiguous amino acids in a sequence selected from the group consistingof: a polypeptide sequence of SEQ ID NO:Y; a polypeptide encoded by SEQID NO:X or the complementary strand thereto; the polypeptide encoded bythe nucleotide sequence as defined in columns 8 and 9 of Table 2; and apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z.

Also preferred is the above method wherein said step of comparingsequences is performed by comparing the amino acid sequence determinedfrom a polypeptide molecule in said sample with said sequence selectedfrom said group.

Also preferred is a method for identifying the species, tissue or celltype of a biological sample which method comprises a step of detectingpolypeptide molecules in said sample, if any, comprising an amino acidsequence that is at least 90% identical to a sequence of at least 10contiguous amino acids in a sequence selected from the group consistingof: polypeptide sequence of SEQ ID NO:Y; a polypeptide encoded by SEQ IDNO:X or the complementary strand thereto; the polypeptide encoded by thenucleotide sequence as defined in columns 8 and 9 of Table 2; and apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z.

Also preferred is the above method for identifying the species, tissueor cell type of a biological sample, which method comprises a step ofdetecting polypeptide molecules comprising an amino acid sequence in apanel of at least two amino acid sequences, wherein at least onesequence in said panel is at least 90% identical to a sequence of atleast 10 contiguous amino acids in a sequence selected from the abovegroup.

Also preferred is a method for diagnosing in a subject a pathologicalcondition associated with abnormal structure or expression of a nucleicacid sequence identified in Table 1A, 1B or Table 2 encoding apolypeptide, which method comprises a step of detecting in a biologicalsample obtained from said subject polypeptide molecules comprising anamino acid sequence in a panel of at least two amino acid sequences,wherein at least one sequence in said panel is at least 90% identical toa sequence of at least 10 contiguous amino acids in a sequence selectedfrom the group consisting of: polypeptide sequence of SEQ ID NO:Y; apolypeptide encoded by SEQ ID NO:X or the complementary strand thereto;the polypeptide encoded by the nucleotide sequence as defined in columns8 and 9 of Table 2; and a polypeptide encoded by the cDNA contained inATCC Deposit No: Z.

In any of these methods, the step of detecting said polypeptidemolecules includes using an antibody.

Also preferred is an isolated nucleic acid molecule comprising anucleotide sequence which is at least 95% identical to a nucleotidesequence encoding a polypeptide wherein said polypeptide comprises anamino acid sequence that is at least 90% identical to a sequence of atleast 10 contiguous amino acids in a sequence selected from the groupconsisting of: polypeptide sequence of SEQ ID NO:Y; a polypeptideencoded by SEQ ID NO:X or the complementary strand thereto; thepolypeptide encoded by the nucleotide sequence as defined in columns 8and 9 of Table 2; and a polypeptide encoded by the cDNA contained inATCC Deposit No: Z.

Also preferred is an isolated nucleic acid molecule, wherein saidnucleotide sequence encoding a polypeptide has been optimized forexpression of said polypeptide in a prokaryotic host.

Also preferred is a polypeptide molecule, wherein said polypeptidecomprises an amino acid sequence selected from the group consisting of:polypeptide sequence of SEQ ID NO:Y; a polypeptide encoded by SEQ IDNO:X or the complementary strand thereto; the polypeptide encoded by thenucleotide sequence as defined in columns 8 and 9 of Table 2; and apolypeptide encoded by the cDNA contained in ATCC Deposit No: Z.

Further preferred is a method of making a recombinant vector comprisinginserting any of the above isolated nucleic acid molecule into a vector.Also preferred is the recombinant vector produced by this method. Alsopreferred is a method of making a recombinant host cell comprisingintroducing the vector into a host cell, as well as the recombinant hostcell produced by this method.

Also preferred is a method of making an isolated polypeptide comprisingculturing this recombinant host cell under conditions such that saidpolypeptide is expressed and recovering said polypeptide. Also preferredis this method of making an isolated polypeptide, wherein saidrecombinant host cell is a eukaryotic cell and said polypeptide is ahuman protein comprising an amino acid sequence selected from the groupconsisting of: polypeptide sequence of SEQ ID NO:Y; a polypeptideencoded by SEQ ID NO:X or the complementary strand thereto; thepolypeptide encoded by the nucleotide sequence as defined in columns 8and 9 of Table 2; and a polypeptide encoded by the cDNA contained inATCC Deposit No: Z. The isolated polypeptide produced by this method isalso preferred.

Also preferred is a method of treatment of an individual in need of anincreased level of a protein activity, which method comprisesadministering to such an individual a Therapeutic comprising an amountof an isolated polypeptide, polynucleotide, immunogenic fragment oranalogue thereof, binding agent, antibody, or antigen binding fragmentof the claimed invention effective to increase the level of said proteinactivity in said individual.

Also preferred is a method of treatment of an individual in need of adecreased level of a protein activity, which method comprisedadministering to such an individual a Therapeutic comprising an amountof an isolated polypeptide, polynucleotide, immunogenic fragment oranalogue thereof, binding agent, antibody, or antigen binding fragmentof the claimed invention effective to decrease the level of said proteinactivity in said individual.

Also preferred is a method of treatment of an individual in need of aspecific delivery of toxic compositions to diseased cells (e.g., tumors,leukemias or lymphomas), which method comprises administering to such anindividual a Therapeutic comprising an amount of an isolated polypeptideof the invention, including, but not limited to a binding agent, orantibody of the claimed invention that are associated with toxin orcytotoxic prodrugs.

Having generally described the invention, the same will be more readilyunderstood by reference to the following examples, which are provided byway of illustration and are not intended as limiting.

Description of Table 6

Table 6 summarizes some of the ATCC Deposits, Deposit dates, and ATCCdesignation numbers of deposits made with the ATCC in connection withthe present application. These deposits were made in addition to thosedescribed in the Table 1A. TABLE 6 ATCC Deposits Deposit Date ATGCDesignation Number LP01, LP02, LP03, LP04, May-20-97 209059, 209060,209061, LP05, LP06, LP07, LP08, 209062, 209063, 209064, LP09, LP10,LP11, 209065, 209066, 209067, 209068, 209069 LP12 Jan-12-98 209579 LP13Jan-12-98 209578 LP14 Jul-16-98 203067 LP15 Jul-16-98 203068 LP16Feb-1-99 203609 LP17 Feb-1-99 203610 LP20 Nov-17-98 203485 LP21Jun-18-99 PTA-252 LP22 Jun-18-99 PTA-253 LP23 Dec-22-99 PTA-1081

EXAMPLES Example 1 Isolation of a Selected cDNA Clone from the DepositedSample

Each ATCC Deposit No: Z is contained in a plasmid vector. Table 7identifies the vectors used to construct the cDNA library from whicheach clone was isolated. In many cases, the vector used to construct thelibrary is a phage vector from which a plasmid has been excised. Thefollowing correlates the related plasmid for each phage vector used inconstructing the cDNA library. For example, where a particular clone isidentified in Table 7 as being isolated in the vector “Lambda Zap,” thecorresponding deposited clone is in “pBluescript.” Vector Used toConstruct Library Corresponding Deposited Plasmid Lambda Zap pBluescript(pBS) Uni-Zap XR pBluescript (pBS) Zap Express pBK lafmid BA plafmid BApSport1 pSport1 pCMVSport 2.0 pCMVSport 2.0 pCMVSport 3.0 pCMVSport 3.0pCR ® 2.1 pCR ® 2.1

Vectors Lambda Zap (U.S. Pat. Nos. 5,128,256 and 5,286,636), Uni-Zap XR(U.S. Pat. Nos. 5,128,256 and 5,286,636), Zap Express (U.S. Pat. Nos.5,128,256 and 5,286,636), pBluescript (pBS) (Short, J. M. et al.,Nucleic Acids Res. 16:7583-7600 (1988); Alting-Mees, M. A. and Short, J.M., Nucleic Acids Res. 17:9494 (1989)) and pBK (Alting-Mees, M. A. etal., Strategies 5:58-61 (1992)) are commercially available fromStratagene Cloning Systems, Inc., 11011 N. Torrey Pines Road, La Jolla,Calif., 92037. pBS contains an ampicillin resistance gene and pBKcontains a neomycin resistance gene. Both can be transformed into E.coli strain XL-1 Blue, also available from Stratagene. pBS comes in 4forms SK+, SK−, KS+ and KS. The S and K refers to the orientation of thepolylinker to the T7 and T3 primer sequences which flank the polylinkerregion (“S” is for SacI and “K” is for KpnI which are the first sites oneach respective end of the linker). “+” or “−” refer to the orientationof the f1 origin of replication (“ori”), such that in one orientation,single stranded rescue initiated from the f1 ori generates sense strandDNA and in the other, antisense.

Vectors pSport1, pCMVSport 2.0 and pCMVSport 3.0, were obtained fromLife Technologies, Inc., P.O. Box 6009, Gaithersburg, Md. 20897. AllSport vectors contain an ampicillin resistance gene and may betransformed into E. coli strain DH10B, also available from LifeTechnologies. (See, for instance, Gruber, C. E., et al., Focus 15:59(1993)). Vector lafmid BA (Bento Soares, Columbia University, NY)contains an ampicillin resistance gene and can be transformed into E.coli strain XL-1 Blue. Vector pCR®2.1, which is available fromInvitrogen, 1600 Faraday Avenue, Carlsbad, Calif. 92008, contains anampicillin resistance gene and may be transformed into E. coli strainDH10B, available from Life Technologies. (See, for instance, Clark, J.M., Nuc. Acids Res. 16:9677-9686 (1988) and Mead, D. et al.,Bio/Technology 9: (1991)). Preferably, a polynucleotide of the presentinvention does not comprise the phage vector sequences identified forthe particular clone in Table 7, as well as the corresponding plasmidvector sequences designated above.

The deposited material in the sample assigned the ATCC Deposit Numbercited by reference to Table 1A, Table 2, Table 6 and Table 7 for anygiven cDNA clone also may contain one or more additional plasmids, eachcomprising a cDNA clone different from that given clone. Thus, depositssharing the same ATCC Deposit Number contain at least a plasmid for eachATCC Deposit No: Z. TABLE 7 ATCC Libraries owned by Catalog CatalogDescription Vector Deposit HUKA HUKB HUKC HUKD Human Uterine CancerLambda ZAP II LP01 HUKE HUKF HUKG HCNA HCNB Human Colon Lambda Zap IILP01 HFFA Human Fetal Brain, random Lambda Zap II LP01 primed HTWAResting T-Cell Lambda ZAP II LP01 HBQA Early Stage Human Brain, randomLambda ZAP II LP01 primed HLMB HLMF HLMG breast lymph node CDNA libraryLambda ZAP II LP01 HLMH HLMI HLMJ HLMM HLMN HCQA HCQB human colon cancerLamda ZAP II LP01 HMEA HMEC HMED Human Microvascular Endothelial LambdaZAP II LP01 HMEE HMEF HMEG HMEI Cells, fract. A HMEJ HMEK HMEL HUSA HUSCHuman Umbilical Vein Lambda ZAP II LP01 Endothelial Cells, fract. A HLQAHLQB Hepatocellular Tumor Lambda ZAP II LP01 HHGA HHGB HHGC HHGDHemangiopericytoma Lambda ZAP II LP01 HSDM Human Striatum Depression,re- Lambda ZAP II LP01 rescue HUSH H Umbilical Vein Endothelial LambdaZAP II LP01 Cells, frac A, re-excision HSGS Salivary gland, subtractedLambda ZAP II LP01 HFXA HFXB HFXC HFXD Brain frontal cortex Lambda ZAPII LP01 HFXE HFXF HFXG HFXH HPQA HPQB HPQC PERM TF274 Lambda ZAP II LP01HFXJ HFXK Brain Frontal Cortex, re-excision Lambda ZAP II LP01 HCWA HCWBHCWC CD34 positive cells (Cord Blood) ZAP Express LP02 HCWD HCWE HCWFHCWG HCWH HCWI HCWJ HCWK HCUA HCUB HCUC CD34 depleted Buffy Coat (CordZAP Express LP02 Blood) HRSM A-14 cell line ZAP Express LP02 HRSAA1-CELL LINE ZAP Express LP02 HCUD HCUE HCUF HCUG CD34 depleted BuffyCoat (Cord ZAP Express LP02 HCUH HCUI Blood), re-excision HBXE HBXF HBXGH. Whole Brain #2, re-excision ZAP Express LP02 HRLM L8 cell line ZAPExpress LP02 HBXA HBXB HBXC HBXD Human Whole Brain #2 - Oligo dT ZAPExpress LP02 >1.5 Kb HUDA HUDB HUDC Testes ZAP Express LP02 HHTM HHTNHHTO H. hypothalamus, frac A; re- ZAP Express LP02 excision HHTL H.hypothalamus, frac A ZAP Express LP02 HASA HASD Human Adult SpleenUni-ZAP XR LP03 HFKC HFKD HFKE HFKF Human Fetal Kidney Uni-ZAP XR LP03HFKG HE8A HE8B HE8C HE8D Human 8 Week Whole Embryo Uni-ZAP XR LP03 HE8EHE8F HE8M HE8N HGBA HGBD HGBE HGBF Human Gall Bladder Uni-ZAP XR LP03HGBG HGBH HGBI HLHA HLHB HLHC HLHD Human Fetal Lung III Uni-ZAP XR LP03HLHE HLHF HLHG HLHH HLHQ HPMA HPMB HPMC HPMD Human Placenta Uni-ZAP XRLP03 HPME HPMF HPMG HPMH HPRA HPRB HPRC HPRD Human Prostate Uni-ZAP XRLP03 HSIA HSIC HSID HSIE Human Adult Small Intestine Uni-ZAP XR LP03HTEA HTEB HTEC HTED Human Testes Uni-ZAP XR LP03 HTEE HTEF HTEG HTEHHTEI HTEJ HTEK HTPA HTPB HTPC HTPD Human Pancreas Tumor Uni-ZAP XR LP03HTPE HTTA HTTB HTTC HTTD Human Testes Tumor Uni-ZAP XR LP03 HTTE HTTFHAPA HAPB HAPC HAPM Human Adult Pulmonary Uni-ZAP XR LP03 HETA HETB HETCHETD Human Endometrial Tumor Uni-ZAP XR LP03 HETE HETF HETG HETH HETIHHFB HHFC HHFD HHFE Human Fetal Heart Uni-ZAP XR LP03 HHFF HHFG HHFHHHFI HHPB HHPC HHPD HHPE Human Hippocampus Uni-ZAP XR LP03 HHPF HHPGHHPH HCE1 HCE2 HCE3 HCE4 Human Cerebellum Uni-ZAP XR LP03 HCE5 HCEB HCECHCED HCEE HCEF HCEG HUVB HUVC HUVD HUVE Human Umbilical Vein, Endo.Uni-ZAP XR LP03 remake HSTA HSTB HSTC HSTD Human Skin Tumor Uni-ZAP XRLP03 HTAA HTAB HTAC HTAD Human Activated T-Cells Uni-ZAP XR LP03 HTAEHFEA HFEB HFEC Human Fetal Epithelium (Skin) Uni-ZAP XR LP03 HJPA HJPBHJPC HJPD HUMAN JURKAT MEMBRANE Uni-ZAP XR LP03 BOUND POLYSOMES HESAHuman epithelioid sarcoma Uni-Zap XR LP03 HLTA HLTB HLTC HLTD HumanT-Cell Lymphoma Uni-ZAP XR LP03 HLTE HLTF HFTA HFTB HFTC HFTD HumanFetal Dura Mater Uni-ZAP XR LP03 HRDA HRDB HRDC HRDD HumanRhabdomyosarcoma Uni-ZAP XR LP03 HRDE HRDF HCAA HCAB HCAC Cem cellscyclohexamide treated Uni-ZAP XR LP03 HRGA HRGB HRGC HRGD Raji Cells,cyclohexamide treated Uni-ZAP XR LP03 HSUA HSUB HSUC HSUM Supt Cells,cyclohexamide treated Uni-ZAP XR LP03 HT4A HT4C HT4D Activated T-Cells,12 hrs. Uni-ZAP XR LP03 HE9A HE9B HE9C HE9D Nine Week Old Early StageUni-ZAP XR LP03 HE9E HE9F HE9G HE9H Human HE9M HE9N HATA HATB HATC HATDHuman Adrenal Gland Tumor Uni-ZAP XR LP03 HATE HT5A Activated T-Cells,24 hrs. Uni-ZAP XR LP03 HFGA HFGM Human Fetal Brain Uni-ZAP XR LP03 HNEAHNEB HNEC HNED Human Neutrophil Uni-ZAP XR LP03 HNEE HBGB HBGD HumanPrimary Breast Cancer Uni-ZAP XR LP03 HBNA HBNB Human Normal BreastUni-ZAP XR LP03 HCAS Cem Cells, cyclohexamide treated, Uni-ZAP XR LP03subtra HHPS Human Hippocampus, subtracted pBS LP03 HKCS HKCU Human ColonCancer, subtracted pBS LP03 HRGS Raji cells, cyclohexamide treated, pBSLP03 subtracted HSUT Supt cells, cyclohexamide treated, pBS LP03differentially expressed HT4S Activated T-Cells, 12 hrs, Uni-ZAP XR LP03subtracted HCDA HCDB HCDC HCDD Human Chondrosarcoma Uni-ZAP XR LP03 HCDEHOAA HOAB HOAC Human Osteosarcoma Uni-ZAP XR LP03 HTLA HTLB HTLC HTLDHuman adult testis, large inserts Uni-ZAP XR LP03 HTLE HTLF HLMA HLMCHLMD Breast Lymph node cDNA library Uni-ZAP XR LP03 H6EA H6EB H6ECHL-60, PMA 4H Uni-ZAP XR LP03 HTXA HTXB HTXC HTXD Activated T-CellUni-ZAP XR LP03 HTXE HTXF HTXG HTXH (12 hs)/Thiouridine labelledEco HNFAHNFB HNFC HNFD Human Neutrophil, Activated Uni-ZAP XR LP03 HNFE HNFFHNFG HNFH HNFJ HTOB HTOC HUMAN TONSILS, FRACTION 2 Uni-ZAP XR LP03 HMGBHuman OB MG63 control fraction I Uni-ZAP XR LP03 HOPB Human OB HOScontrol fraction I Uni-ZAP XR LP03 HORB Human OB HOS treated (10 nMUni-ZAP XR LP03 E2) fraction I HSVA HSVB HSVC Human Chronic SynovitisUni-ZAP XR LP03 HROA HUMAN STOMACH Uni-ZAP XR LP03 HBJA HBJB HBJC HBJDHUMAN B CELL LYMPHOMA Uni-ZAP XR LP03 HBJE HBJF HBJG HBJH HBJI HBJJ HBJKHCRA HCRB HCRC human corpus colosum Uni-ZAP XR LP03 HODA HODB HODC HODDhuman ovarian cancer Uni-ZAP XR LP03 HDSA Dermatofibrosarcoma Uni-ZAP XRLP03 Protuberance HMWA HMWB HMWC Bone Marrow Cell Line (RS4; 11) Uni-ZAPXR LP03 HMWD HMWE HMWF HMWG HMWH HMWI HMWJ HSOA stomach cancer (human)Uni-ZAP XR LP03 HERA SKIN Uni-ZAP XR LP03 HMDA Brain-medulloblastomaUni-ZAP XR LP03 HGLA HGLB HGLD Glioblastoma Uni-ZAP XR LP03 HEAA H.Atrophic Endometrium Uni-ZAP XR LP03 HBCA HBCB H. Lymph node breastCancer Uni-ZAP XR LP03 HPWT Human Prostate BPH, re-excision Uni-ZAP XRLP03 HFVG HFVH HFVI Fetal Liver, subtraction II pBS LP03 HNFI HumanNeutrophils, Activated, re- pBS LP03 excision HBMB HBMC HBMD Human BoneMarrow, re-excision pBS LP03 HKML HKMM HKMN H. Kidney Medulla,re-excision pBS LP03 HKIX HKIY H. Kidney Cortex, subtracted pBS LP03HADT H. Amygdala Depression, pBS LP03 subtracted H6AS Hl-60, untreated,subtracted Uni-ZAP XR LP03 H6ES HL-60, PMA 4H, subtracted Uni-ZAP XRLP03 H6BS HL-60, RA 4h, Subtracted Uni-ZAP XR LP03 H6CS HL-60, PMA 1d,subtracted Uni-ZAP XR LP03 HTXJ HTXK Activated T-cell(12 h)/Thiouridine-Uni-ZAP XR LP03 re-excision HMSA HMSB HMSC HMSD Monocyte activatedUni-ZAP XR LP03 HMSE HMSF HMSG HMSH HMSI HMSJ HMSK HAGA HAGB HAGC HAGDHuman Amygdala Uni-ZAP XR LP03 HAGE HAGF HSRA HSRB HSRE STROMAL -OSTEOCLASTOMA Uni-ZAP XR LP03 HSRD HSRF HSRG HSRH Human OsteoclastomaStromal Uni-ZAP XR LP03 Cells - unamplified HSQA HSQB HSQC HSQD Stromalcell TF274 Uni-ZAP XR LP03 HSQE HSQF HSQG HSKA HSKB HSKC HSKD Smoothmuscle, serum treated Uni-ZAP XR LP03 HSKE HSKF HSKZ HSLA HSLB HSLC HSLDSmooth muscle, control Uni-ZAP XR LP03 HSLE HSLF HSLG HSDA HSDD HSDEHSDF Spinal cord Uni-ZAP XR LP03 HSDG HSDH HPWS Prostate-BPH subtractedII pBS LP03 HSKW HSKX HSKY Smooth Muscle- HASTE pBS LP03 normalized HFPBHFPC HFPD H. Frontal cortex, epileptic; re- Uni-ZAP XR LP03 excisionHSDI HSDJ HSDK Spinal Cord, re-excision Uni-ZAP XR LP03 HSKN HSKO SmoothMuscle Serum Treated, pBS LP03 Norm HSKG HSKH HSKI Smooth muscle, seruminduced, re- pBS LP03 exc HFCA HFCB HFCC HFCD Human Fetal Brain Uni-ZAPXR LP04 HFCE HFCF HPTA HPTB HPTD Human Pituitary Uni-ZAP XR LP04 HTHBHTHC HTHD Human Thymus Uni-ZAP XR LP04 HE6B HE6C HE6D HE6E Human WholeSix Week Old Uni-ZAP XR LP04 HE6F HE6G HE6S Embryo HSSA HSSB HSSC HSSDHuman Synovial Sarcoma Uni-ZAP XR LP04 HSSE HSSF HSSG HSSH HSSI HSSJHSSK HE7T 7 Week Old Early Stage Human, Uni-ZAP XR LP04 subtracted HEPAHEPB HEPC Human Epididymus Uni-ZAP XR LP04 HSNA HSNB HSNC HSNM HumanSynovium Uni-ZAP XR LP04 HSNN HPFB HPFC HPFD HPFE Human Prostate Cancer,Stage C Uni-ZAP XR LP04 fraction HE2A HE2D HE2E HE2H 12 Week Old EarlyStage Human Uni-ZAP XR LP04 HE2I HE2M HE2N HE2O HE2B HE2C HE2F HE2G 12Week Old Early Stage Human, Uni-ZAP XR LP04 HE2P HE2Q II HPTS HPTT HPTUHuman Pituitary, subtracted Uni-ZAP XR LP04 HAUA HAUB HAUC AmnioticCells - TNF induced Uni-ZAP XR LP04 HAQA HAQB HAQC HAQD Amniotic Cells -Primary Culture Uni-ZAP XR LP04 HWTA HWTB HWTC wilm's tumor Uni-ZAP XRLP04 HBSD Bone Cancer, re-excision Uni-ZAP XR LP04 HSGB Salivary gland,re-excision Uni-ZAP XR LP04 HSJA HSJB HSJC Smooth muscle-ILb inducedUni-ZAP XR LP04 HSXA HSXB HSXC HSXD Human Substantia Nigra Uni-ZAP XRLP04 HSHA HSHB HSHC Smooth muscle, IL1b induced Uni-ZAP XR LP04 HOUAHOUB HOUC HOUD Adipocytes Uni-ZAP XR LP04 HOUE HPWA HPWB HPWC ProstateBPH Uni-ZAP XR LP04 HPWD HPWE HELA HELB HELC HELD Endothelialcells-control Uni-ZAP XR LP04 HELE HELF HELG HELH HEMA HEMB HEMCEndothelial-induced Uni-ZAP XR LP04 HEMD HEME HEMF HEMG HEMH HBIA HBIBHBIC Human Brain, Striatum Uni-ZAP XR LP04 HHSA HHSB HHSC HHSD HumanUni-ZAP XR LP04 HHSE Hypothalmus, Schizophrenia HNGA HNGB HNGC HNGDneutrophils control Uni-ZAP XR LP04 HNGE HNGF HNGG HNGH HNGI HNGJ HNHAHNHB HNHC HNHD Neutrophils IL-1 and LPS induced Uni-ZAP XR LP04 HNHEHNHF HNHG HNHH HNHI HNHJ HSDB HSDC STRIATUM DEPRESSION Uni-ZAP XR LP04HHPT Hypothalamus Uni-ZAP XR LP04 HSAT HSAU HSAV HSAW Anergic T-cellUni-ZAP XR LP04 HSAX HSAY HSAZ HBMS HBMT HBMU Bone marrow Uni-ZAP XRLP04 HBMV HBMW HBMX HOEA HOEB HOEC HOED Osteoblasts Uni-ZAP XR LP04 HOEEHOEF HOEJ HAIA HAIB HAIC HAID Epithelial-TNFa and INF induced Uni-ZAP XRLP04 HAIE HAIF HTGA HTGB HTGC HTGD Apoptotic T-cell Uni-ZAP XR LP04 HMCAHMCB HMCC Macrophage-oxLDL Uni-ZAP XR LP04 HMCD HMCE HMAA HMAB HMACMacrophage (GM-CSF treated) Uni-ZAP XR LP04 HMAD HMAE HMAF HMAG HPHANormal Prostate Uni-ZAP XR LP04 HPIA HPIB HPIC LNCAP prostate cell lineUni-ZAP XR LP04 HPJA HPJB HPJC PC3 Prostate cell line Uni-ZAP XR LP04HOSE HOSF HOSG Human Osteoclastoma, re-excision Uni-ZAP XR LP04 HTGEHTGF Apoptotic T-cell, re-excision Uni-ZAP XR LP04 HMAJ HMAK HMacrophage (GM-CSF treated), Uni-ZAP XR LP04 re-excision HACB HACC HACDHuman Adipose Tissue, re- Uni-ZAP XR LP04 excision HFPA H. FrontalCortex, Epileptic Uni-ZAP XR LP04 HFAA HFAB HFAC HFAD Alzheimer's,spongy change Uni-ZAP XR LP04 HFAE HFAM Frontal Lobe, Dementia Uni-ZAPXR LP04 HMIA HMIB HMIC Human Manic Depression Tissue Uni-ZAP XR LP04HTSA HTSE HTSF HTSG Human Thymus pBS LP05 HTSH HPBA HPBB HPBC HPBD HumanPineal Gland pBS LP05 HPBE HSAA HSAB HSAC HSA 172 Cells pBS LP05 HSBAHSBB HSBC HSBM HSC172 cells pBS LP05 HJAA HJAB HJAC HJAD Jurkat T-cellG1 phase pBS LP05 HJBA HJBB HJBC HJBD Jurkat T-Cell, S phase pBS LP05HAFA HAFB Aorta endothelial cells + TNF-a pBS LP05 HAWA HAWB HAWC HumanWhite Adipose pBS LP05 HTNA HTNB Human Thyroid pBS LP05 HONA NormalOvary, Premenopausal pBS LP05 HARA HARB Human Adult Retina pBS LP05 HLJAHLJB Human Lung pCMVSport 1 LP06 HOFM HOFN HOFO H. Ovarian Tumor, II,OV5232 pCMVSport 2.0 LP07 HOGA HOGB HOGC OV 10-3-95 pCMVSport 2.0 LP07HCGL CD34+cells, II pCMVSport 2.0 LP07 HDLA Hodgkin's Lymphoma IpCMVSport 2.0 LP07 HDTA HDTB HDTC HDTD Hodgkin's Lymphoma II pCMVSport2.0 LP07 HDTE HKAA HKAB HKAC HKAD Keratinocyte pCMVSport2.0 LP07 HKAEHKAF HKAG HKAH HCIM CAPFINDER, Crohn's Disease, lib 2 pCMVSport 2.0 LP07HKAL Keratinocyte, lib 2 pCMVSport2.0 LP07 HKAT Keratinocyte, lib 3pCMVSport2.0 LP07 HNDA Nasal polyps pCMVSport2.0 LP07 HDRA H. PrimaryDendritic Cells, lib 3 pCMVSport2.0 LP07 HOHA HOHB HOHC HumanOsteoblasts II pCMVSport2.0 LP07 HLDA HLDB HLDC Liver, HepatomapCMVSport3.0 LP08 HLDN HLDO HLDP Human Liver, normal pCMVSport3.0 LP08HMTA pBMC stimulated w/ poly I/C pCMVSport3.0 LP08 HNTA NTERA2, controlpCMVSport3.0 LP08 HDPA HDPB HDPC HDPD Primary Dendritic Cells, lib 1pCMVSport3.0 LP08 HDPF HDPG HDPH HDPI HDPJ HDPK HDPM HDPN HDPO HDPPPrimary Dendritic cells, frac 2 pCMVSport3.0 LP08 HMUA HMUB HMUC MyoloidProgenitor Cell Line pCMVSport3.0 LP08 HHEA HHEB HHEC HHED T Cell helperI pCMVSport3.0 LP08 HHEM HHEN HHEO HHEP T cell helper II pCMVSport3.0LP08 HEQA HEQB HEQC Human endometrial stromal cells pCMVSport3.0 LP08HJMA HJMB Human endometrial stromal cells- pCMVSport3.0 LP08 treatedwith progesterone HSWA HSWB HSWC Human endometrial stromal cells-pCMVSport3.0 LP08 treated with estradiol HSYA HSYB HSYC Human ThymusStromal Cells pCMVSport3.0 LP08 HLWA HLWB HLWC Human PlacentapCMVSport3.0 LP08 HRAA HRAB HRAC Rejected Kidney, lib 4 pCMVSport3.0LP08 HMTM PCR, pBMC I/C treated PCRII LP09 HMJA H. Meniingima, M6 pSport1 LP10 HMKA HMKB HMKC H. Meningima, M1 pSport 1 LP10 HMKD HMKE HUSG HUSIHuman umbilical vein endothelial pSport 1 LP10 cells, IL-4 induced HUSXHUSY Human Umbilical Vein pSport 1 LP10 Endothelial Cells, uninducedHOFA Ovarian Tumor I, OV5232 pSport 1 LP10 HCFA HCFB HCFC HCFD T-CellPHA 16 hrs pSport 1 LP10 HCFL HCFM HCFN HCFO T-Cell PHA 24 hrs pSport 1LP10 HADA HADC HADD HADE Human Adipose pSport 1 LP10 HADF HADG HOVA HOVBHOVC Human Ovary pSport 1 LP10 HTWB HTWC HTWD Resting T-Cell Library, IIpSport 1 LP10 HTWE HTWF HMMA Spleen metastic melanoma pSport 1 LP10 HLYAHLYB HLYC HLYD Spleen, Chronic lymphocytic pSport 1 LP10 HLYE leukemiaHCGA CD34+ cell, I pSport 1 LP10 HEOM HEON Human Eosinophils pSport 1LP10 HTDA Human Tonsil, Lib 3 pSport 1 LP10 HSPA Salivary Gland, Lib 2pSport 1 LP10 HCHA HCHB HCHC Breast Cancer cell line, MDA 36 pSport 1LP10 HCHM HCHN Breast Cancer Cell line, angiogenic pSport 1 LP10 HCIACrohn's Disease pSport 1 LP10 HDAA HDAB HDAC HEL cell line pSport 1 LP10HABA Human Astrocyte pSport 1 LP10 HUFA HUFB HUFC Ulcerative ColitispSport 1 LP10 HNTM NTERA2 + retinoic acid, 14 days pSport 1 LP10 HDQAPrimary Dendritic pSport 1 LP10 cells, CapFinder2, frac 1 HDQM PrimaryDendritic Cells, pSport 1 LP10 CapFinder, frac 2 HLDX Human Liver,normal, CapFinder pSport 1 LP10 HULA HULB HULC Human Dermal EndothelialpSport1 LP10 Cells, untreated HUMA Human Dermal Endothelial pSport1 LP10cells, treated HCJA Human Stromal Endometrial pSport1 LP10 fibroblasts,untreated HCJM Human Stromal endometrial pSport1 LP10 fibroblasts,treated w/ estradiol HEDA Human Stromal endometrial pSport1 LP10fibroblasts, treated with progesterone HFNA Human ovary tumor cellpSport1 LP10 OV350721 HKGA HKGB HKGC HKGD Merkel Cells pSport1 LP10 HISAHISB HISC Pancreas Islet Cell Tumor pSport1 LP10 HLSA Skin, burnedpSport1 LP10 HBZA Prostate, BPH, Lib 2 pSport 1 LP10 HBZS Prostate BPH,Lib 2, subtracted pSport 1 LP10 HFIA HFIB HFIC Synovial Fibroblasts(control) pSport 1 LP10 HFIH HFII HFIJ Synovial hypoxia pSport 1 LP10HFIT HFIU HFIV Synovial IL-1/TNF stimulated pSport 1 LP10 HGCAMessangial cell, frac 1 pSport1 LP10 HMVA HMVB HMVC Bone Marrow StromalCell, pSport1 LP10 untreated HFIX HFIY HFIZ Synovial Fibroblasts(Il1/TNF), pSport1 LP10 subt HFOX HFOY HFOZ Synovial hypoxia-RSFsubtracted pSport1 LP10 HMQA HMQB HMQC Human Activated Monocytes Uni-ZAPXR LP11 HMQD HLIA HLIB HLIC Human Liver pCMVSport 1 LP012 HHBA HHBB HHBCHHBD Human Heart pCMVSport 1 LP012 HHBE HBBA HBBB Human Brain pCMVSport1 LP012 HLJA HLJB HLJC HLJD Human Lung pCMVSport 1 LP012 HLJE HOGA HOGBHOGC Ovarian Tumor pCMVSport 2.0 LP012 HTJM Human Tonsils, Lib 2pCMVSport 2.0 LP012 HAMF HAMG KMH2 pCMVSport 3.0 LP012 HAJA HAJB HAJCL428 pCMVSport 3.0 LP012 HWBA HWBB HWBC Dendritic cells, pooledpCMVSport 3.0 LP012 HWBD HWBE HWAA HWAB HWAC Human Bone Marrow, treatedpCMVSport 3.0 LP012 HWAD HWAE HYAA HYAB HYAC B Cell lymphoma pCMVSport3.0 LP012 HWHG HWHH HWHI Healing groin wound, 6.5 hours pCMVSport 3.0LP012 post incision HWHP HWHQ HWHR Healing groin wound; 7.5 hourspCMVSport 3.0 LP012 post incision HARM Healing groin wound - zero hrpCMVSport 3.0 LP012 post-incision (control) HBIM Olfactory epithelium;nasalcavity pCMVSport 3.0 LP012 HWDA Healing Abdomen wound; 70&90pCMVSport 3.0 LP012 min post incision HWEA Healing Abdomen Wound; 15days pCMVSport 3.0 LP012 post incision HWJA Healing Abdomen Wound; 21&29pCMVSport 3.0 LP012 days HNAL Human Tongue, frac 2 pSport1 LP012 HMJA H.Meniingima, M6 pSport1 LP012 HMKA HMKB HMKC H. Meningima, M1 pSport1LP012 HMKD HMKE HOFA Ovarian Tumor I, OV5232 pSport1 LP012 HCFA HCFBHCFC HCFD T-Cell PHA 16 hrs pSport1 LP012 HCFL HCFM HCFN HCFO T-Cell PHA24 hrs pSport1 LP012 HMMA HMMB HMMC Spleen metastic melanoma pSport1LP012 HTDA Human Tonsil, Lib 3 pSport1 LP012 HDBA Human Fetal ThymuspSport1 LP012 HDUA Pericardium pSport1 LP012 HBZA Prostate, BPH, Lib 2pSport1 LP012 HWCA Larynx tumor pSport1 LP012 HWKA Normal lung pSport1LP012 HSMB Bone marrow stroma, treated pSport1 LP012 HBHM Normal tracheapSport1 LP012 HLFC Human Larynx pSport1 LP012 HLRB Siebben PolyposispSport1 LP012 HNIA Mammary Gland pSport1 LP012 HNJB Palate carcinomapSport1 LP012 HNKA Palate normal pSport1 LP012 HMZA Pharynx carcinomapSport1 LP012 HABG Cheek Carcinoma pSport1 LP012 HMZM Pharynx CarcinomapSport1 LP012 HDRM Larynx Carcinoma pSport1 LP012 HVAA Pancreas normalPCA4 No pSport1 LP012 HICA Tongue carcinoma pSport1 LP012 HUKA HUKB HUKCHUKD Human Uterine Cancer Lambda ZAP II LP013 HUKE HFFA Human FetalBrain, random Lambda ZAP II LP013 primed HTUA Activated T-cell labeledwith 4- Lambda ZAP II LP013 thioluri HBQA Early Stage Human Brain,random Lambda ZAP II LP013 primed HMEB Human microvascular EndothelialLambda ZAP II LP013 cells, fract. B HUSH Human Umbilical Vein Lambda ZAPII LP013 Endothelial cells, fract. A, re- excision HLQC HLQDHepatocellular tumor, re-excision Lambda ZAP II LP013 HTWJ HTWK HTWLResting T-cell, re-excision Lambda ZAP II LP013 HF6S Human Whole 6 weekOld Embryo pBluescript LP013 (II), subt HHPS Human Hippocampus,subtracted pBluescript LP013 HL1S LNCAP, differential expressionpBluescript LP013 HLHS HLHT Early Stage Human Lung, pBluescript LP013Subtracted HSUS Supt cells, cyclohexamide treated, pBluescript LP013subtracted HSUT Supt cells, cyclohexamide treated, pBluescript LP013differentially expressed HSDS H. Striatum Depression, subtractedpBluescript LP013 HPTZ Human Pituitary, Subtracted VII pBluescript LP013HSDX H. Striatum Depression, subt II pBluescript LP013 HSDZ H. StriatumDepression, subt pBluescript LP013 HPBA HPBB HPBC HPBD Human PinealGland pBluescript SK− LP013 HPBE HRTA Colorectal Tumor pBluescript SK−LP013 HSBA HSBB HSBC HSBM HSC172 cells pBluescript SK− LP013 HJAA HJABHJAC HJAD Jurkat T-cell G1 phase pBluescript SK− LP013 HJBA HJBB HJBCHJBD Jurkat T-cell, S1 phase pBluescript SK− LP013 HTNA HTNB HumanThyroid pBluescript SK− LP013 HAHA HAHB Human Adult Heart Uni-ZAP XRLP013 HE6A Whole 6 week Old Embryo Uni-ZAP XR LP013 HFCA HFCB HFCC HFCDHuman Fetal Brain Uni-ZAP XR LP013 HFCE HFKC HFKD HFKE HFKF Human FetalKidney Uni-ZAP XR LP013 HFKG HGBA HGBD HGBE HGBF Human Gall BladderUni-ZAP XR LP013 HGBG HPRA HPRB HPRC HPRD Human Prostate Uni-ZAP XRLP013 HTEA HTEB HTEC HTED Human Testes Uni-ZAP XR LP013 HTEE HTTA HTTBHTTC HTTD Human Testes Tumor Uni-ZAP XR LP013 HTTE HYBA HYBB Human FetalBone Uni-ZAP XR LP013 HFLA Human Fetal Liver Uni-ZAP XR LP013 HHFB HHFCHHFD HHFE Human Fetal Heart Uni-ZAP XR LP013 HHFF HUVB HUVC HUVD HUVEHuman Umbilical Vein, End. Uni-ZAP XR LP013 remake HTHB HTHC HTHD HumanThymus Uni-ZAP XR LP013 HSTA HSTB HSTC HSTD Human Skin Tumor Uni-ZAP XRLP013 HTAA HTAB HTAC HTAD Human Activated T-cells Uni-ZAP XR LP013 HTAEHFEA HFEB HFEC Human Fetal Epithelium (skin) Uni-ZAP XR LP013 HJPA HJPBHJPC HJPD Human Jurkat Membrane Bound Uni-ZAP XR LP013 Polysomes HESAHuman Epithelioid Sarcoma Uni-ZAP XR LP013 HALS Human Adult Liver,Subtracted Uni-ZAP XR LP013 HFTA HFTB HFTC HFTD Human Fetal Dura MaterUni-ZAP XR LP013 HCAA HCAB HCAC Cem cells, cyclohexamide treated Uni-ZAPXR LP013 HRGA HRGB HRGC HRGD Raji Cells, cyclohexamide treated Uni-ZAPXR LP013 HE9A HE9B HE9C HE9D Nine Week Old Early Stage Uni-ZAP XR LP013HE9E Human HSFA Human Fibrosarcoma Uni-ZAP XR LP013 HATA HATB HATC HATDHuman Adrenal Gland Tumor Uni-ZAP XR LP013 HATE HTRA Human Trachea TumorUni-ZAP XR LP013 HE2A HE2D HE2E HE2H 12 Week Old Early Stage HumanUni-ZAP XR LP013 HE2I HE2B HE2C HE2F HE2G 12 Week Old Early Stage Human,Uni-ZAP XR LP013 HE2P II HNEA HNEB HNEC HNED Human Neutrophil Uni-ZAP XRLP013 HNEE HBGA Human Primary Breast Cancer Uni-ZAP XR LP013 HPTS HPTTHPTU Human Pituitary, subtracted Uni-ZAP XR LP013 HMQA HMQB HMQC HumanActivated Monocytes Uni-ZAP XR LP013 HMQD HOAA HOAB HOAC HumanOsteosarcoma Uni-ZAP XR LP013 HTOA HTOD HTOE HTOF human tonsils Uni-ZAPXR LP013 HTOG HMGB Human OB MG63 control fraction I Uni-ZAP XR LP013HOPB Human OB HOS control fraction I Uni-ZAP XR LP013 HOQB Human OB HOStreated (1 nM Uni-ZAP XR LP013 E2) fraction I HAUA HAUB HAUC AmnioticCells - TNF induced Uni-ZAP XR LP013 HAQA HAQB HAQC HAQD AmnioticCells - Primary Culture Uni-ZAP XR LP013 HROA HROC HUMAN STOMACH Uni-ZAPXR LP013 HBJA HBJB HBJC HBJD HUMAN B CELL LYMPHOMA Uni-ZAP XR LP013 HBJEHODA HODB HODC HODD human ovarian cancer Uni-ZAP XR LP013 HCPA CorpusCallosum Uni-ZAP XR LP013 HSOA stomach cancer (human) Uni-ZAP XR LP013HERA SKIN Uni-ZAP XR LP013 HMDA Brain-medulloblastoma Uni-ZAP XR LP013HGLA HGLB HGLD Glioblastoma Uni-ZAP XR LP013 HWTA HWTB HWTC wilm's tumorUni-ZAP XR LP013 HEAA H. Atrophic Endometrium Uni-ZAP XR LP013 HAPN HAPOHAPP HAPQ Human Adult Pulmonary; re- Uni-ZAP XR LP013 HAPR excision HLTGHLTH Human T-cell lymphoma; re- Uni-ZAP XR LP013 excision HAHC HAHD HAHEHuman Adult Heart; re-excision Uni-ZAP XR LP013 HAGA HAGB HAGC HAGDHuman Amygdala Uni-ZAP XR LP013 HAGE HSJA HSJB HSJC Smooth muscle-ILbinduced Uni-ZAP XR LP013 HSHA HSHB HSHC Smooth muscle, IL1b inducedUni-ZAP XR LP013 HPWA HPWB HPWC Prostate BPH Uni-ZAP XR LP013 HPWD HPWEHPIA HPIB HPIC LNCAP prostate cell line Uni-ZAP XR LP013 HPJA HPJB HPJCPC3 Prostate cell line Uni-ZAP XR LP013 HBTA Bone Marrow Stroma, TNF&LPSUni-ZAP XR LP013 ind HMCF HMCG HMCH HMCI Macrophage-oxLDL; re-excisionUni-ZAP XR LP013 HMCJ HAGG HAGH HAGI Human Amygdala; re-excision Uni-ZAPXR LP013 HACA H. Adipose Tissue Uni-ZAP XR LP013 HKFB K562 + PMA (36hrs), re-excision ZAP Express LP013 HCWT HCWU HCWV CD34 positive cells(cord ZAP Express LP013 blood), re-ex HBWA Whole brain ZAP Express LP013HBXA HBXB HBXC HBXD Human Whole Brain #2 - Oligo dT ZAP ExpressLP013 >1.5 Kb HAVM Temporal cortex-Alzheizmer pT-Adv LP014 HAVTHippocampus, Alzheimer pT-Adv LP014 Subtracted HHAS CHME Cell LineUni-ZAP XR LP014 HAJR Larynx normal pSport 1 LP014 HWLE HWLF HWLG ColonNormal pSport 1 LP014 HWLH HCRM HCRN HCRO Colon Carcinoma pSport 1 LP014HWLI HWLJ HWLK Colon Normal pSport 1 LP014 HWLQ HWLR HWLS Colon TumorpSport 1 LP014 HWLT HBFM Gastrocnemius Muscle pSport 1 LP014 HBOD HBOEQuadriceps Muscle pSport 1 LP014 HBKD HBKE Soleus Muscle pSport 1 LP014HCCM Pancreatic Langerhans pSport 1 LP014 HWGA Larynx carcinoma pSport 1LP014 HWGM HWGN Larynx carcinoma pSport 1 LP014 HWLA HWLB HWLC Normalcolon pSport 1 LP014 HWLM HWLN Colon Tumor pSport 1 LP014 HVAM HVAN HVAOPancreas Tumor pSport 1 LP014 HWGQ Larynx carcinoma pSport 1 LP014 HAQMHAQN Salivary Gland pSport 1 LP014 HASM Stomach; normal pSport 1 LP014HBCM Uterus; normal pSport 1 LP014 HCDM Testis; normal pSport 1 LP014HDJM Brain; normal pSport 1 LP014 HEFM Adrenal Gland, normal pSport 1LP014 HBAA Rectum normal pSport 1 LP014 HFDM Rectum tumour pSport 1LP014 HGAM Colon, normal pSport 1 LP014 HTMM Colon, tumour pSport 1LP014 HCLB HCLC Human Lung Cancer Lambda Zap II LP015 HRLA L1 Cell lineZAP Express LP015 HHAM Hypothalamus, Alzheimer's pCMVSport 3.0 LP015HKBA Ku 812F Basophils Line pSport 1 LP015 HS2S Saos2, DexamethosomeTreated pSport 1 LP016 HA5A Lung Carcinoma A549 TNFalpha pSport 1 LP016activated HTFM TF-1 Cell Line GM-CSF Treated pSport 1 LP016 HYAS ThyroidTumour pSport 1 LP016 HUTS Larynx Normal pSport 1 LP016 HXOA LarynxTumor pSport 1 LP016 HEAH Ea.hy.926 cell line pSport 1 LP016 HINAAdenocarcinoma Human pSport 1 LP016 HRMA Lung Mesothelium pSport 1 LP016HLCL Human Pre-Differentiated Uni-Zap XR LP017 Adipocytes HS2A Saos2Cells pSport 1 LP020 HS2I Saos2 Cells; Vitamin D3 Treated pSport 1 LP020HUCM CHME Cell Line, untreated pSport 1 LP020 HEPN Aryepiglottis NormalpSport 1 LP020 HPSN Sinus Piniformis Tumour pSport 1 LP020 HNSA StomachNormal pSport 1 LP020 HNSM Stomach Tumour pSport 1 LP020 HNLA LiverNormal Met5No pSport 1 LP020 HUTA Liver Tumour Met 5 Tu pSport 1 LP020HOCN Colon Normal pSport 1 LP020 HOCT Colon Tumor pSport 1 LP020 HTNTTongue Tumour pSport 1 LP020 HLXN Larynx Normal pSport 1 LP020 HLXTLarynx Tumour pSport 1 LP020 HTYN Thymus pSport 1 LP020 HPLN PlacentapSport 1 LP020 HTNG Tongue Normal pSport 1 LP020 HZAA Thyroid Normal(SDCA2 No) pSport 1 LP020 HWES Thyroid Thyroiditis pSport 1 LP020 HFHDFicolled Human Stromal Cells, pTrip1Ex2 LP021 5Fu treated HFHM, HFHNFicolled Human Stromal Cells, pTrip1Ex2 LP021 Untreated HPCI Hep G2Cells, lambda library lambda Zap- LP021 CMV XR HBCA, HBCB, HBCC H. Lymphnode breast Cancer Uni-ZAP XR LP021 HCOK Chondrocytes pSPORT1 LP022HDCA, HDCB, HDCC Dendritic Cells From CD34 Cells pSPORT1 LP022 HDMA,HDMB CD40 activated monocyte pSPORT1 LP022 dendritic cells HDDM, HDDN,HDDO LPS activated derived dendritic pSPORT1 LP022 cells HPCR Hep G2Cells, PCR library lambda Zap- LP022 CMV XR HAAA, HAAB, HAAC Lung,Cancer (4005313A3): pSPORT1 LP022 Invasive Poorly Differentiated LungAdenocarcinoma HIPA, HIPB, HIPC Lung, Cancer (4005163 B7): pSPORT1 LP022Invasive, Poorly Diff. Adenocarcinoma, Metastatic HOOH, HOOI Ovary,Cancer: (4004562 B6) pSPORT1 LP022 Papillary Serous Cystic Neoplasm, LowMalignant Pot HIDA Lung, Normal: (4005313 B1) pSPORT1 LP022 HUJA, HUJB,HUJC, HUJD, HUJE B-Cells pCMVSport 3.0 LP022 HNOA, HNOB, HNOC, HNODOvary, Normal: (9805C040R) pSPORT1 LP022 HNLM Lung, Normal: (4005313 B1)pSPORT1 LP022 HSCL Stromal Cells pSPORT1 LP022 HAAX Lung, Cancer:(4005313 A3) pSPORT1 LP022 Invasive Poorly-differentiated Metastaticlung adenocarcinoma HUUA, HUUB, HUUC, HUUD B-cells (unstimulated)pTrip1Ex2 LP022 HWWA, HWWB, HWWC, HWWD, B-cells (stimulated) pSPORT1LP022 HWWE, HWWF, HWWG HCCC Colon, Cancer: (9808C064R) pCMVSport 3.0LP023 HPDO HPDP HPDQ HPDR Ovary, Cancer (9809C332): Poorly pSport 1LP023 HPD differentiated adenocarcinoma HPCO HPCP HPCQ HPCT Ovary,Cancer (15395A1F): Grade pSport 1 LP023 II Papillary Carcinoma HOCM HOCOHOCP HOCQ Ovary, Cancer: (15799A1F) pSport 1 LP023 Poorly differentiatedcarcinoma HCBM HCBN HCBO Breast, Cancer: (4004943 A5) pSport 1 LP023HNBT HNBU HNBV Breast, Normal: (4005522B2) pSport 1 LP023 HBCP HBCQBreast, Cancer: (4005522 A2) pSport 1 LP023 HBCJ Breast, Cancer:(9806C012R) pSport 1 LP023 HSAM HSAN Stromal cells 3.88 pSport 1 LP023HVCA HVCB HVCC HVCD Ovary, Cancer: (4004332 A2) pSport 1 LP023 HSCK HSENHSEO Stromal cells (HBM3.18) pSport 1 LP023 HSCP HSCQ stromal cell clone2.5 pSport 1 LP023 HUXA Breast Cancer: (4005385 A2) pSport 1 LP023 HCOMHCON HCOO HCOP Ovary, Cancer (4004650 A3): pSport 1 LP023 HCOQWell-Differentiated Micropapillary Serous Carcinoma HBNM Breast, Cancer:(9802C020E) pSport 1 LP023 HVVA HVVB HVVC HVVD Human Bone Marrow,treated pSport 1 LP023 HVVE

Two nonlimiting examples are provided below for isolating a particularclone from the deposited sample of plasmid cDNAs cited for that clone inTable 7. First, a plasmid is directly isolated by screening the clonesusing a polynucleotide probe corresponding to the nucleotide sequence ofSEQ ID NO:X.

Particularly, a specific polynucleotide with 30-40 nucleotides issynthesized using an Applied Biosystems DNA synthesizer according to thesequence reported. The oligonucleotide is labeled, for instance, with³²P-γ-ATP using T4 polynucleotide kinase and purified according toroutine methods. (E.g., Maniatis et al., Molecular Cloning: A LaboratoryManual, Cold Spring Harbor Press, Cold Spring, N.Y. (1982)). The plasmidmixture is transformed into a suitable host, as indicated above (such asXL-1 Blue (Stratagene)) using techniques known to those of skill in theart, such as those provided by the vector supplier or in relatedpublications or patents cited above. The transformants are plated on1.5% agar plates (containing the appropriate selection agent, e.g.,ampicillin) to a density of about 150 transformants (colonies) perplate. These plates are screened using Nylon membranes according toroutine methods for bacterial colony screening (e.g., Sambrook et al.,Molecular Cloning: A Laboratory Manual, 2nd Edit., (1989), Cold SpringHarbor Laboratory Press, pages 1.93 to 1.104), or other techniques knownto those of skill in the art.

Alternatively, two primers of 17-20 nucleotides derived from both endsof the nucleotide sequence of SEQ ID NO:X are synthesized and used toamplify the desired cDNA using the deposited cDNA plasmid as a template.The polymerase chain reaction is carried out under routine conditions,for instance, in 25 μl of reaction mixture with 0.5 ug of the above cDNAtemplate. A convenient reaction mixture is 1.5-5 mM MgCl₂, 0.01% (w/v)gelatin, 20 μM each of dATP, dCTP, dGTP, dTTP, 25 pmol of each primerand 0.25 Unit of Taq polymerase. Thirty five cycles of PCR (denaturationat 94° C. for 1 min; annealing at 55° C. for 1 min; elongation at 72° C.for 1 min) are performed with a Perkin-Elmer Cetus automated thermalcycler. The amplified product is analyzed by agarose gel electrophoresisand the DNA band with expected molecular weight is excised and purified.The PCR product is verified to be the selected sequence by subcloningand sequencing the DNA product.

Several methods are available for the identification of the 5′ or 3′non-coding portions of a gene which may not be present in the depositedclone. These methods include but are not limited to, filter probing,clone enrichment using specific probes, and protocols similar oridentical to 5′ and 3′ “RACE” protocols which are well known in the art.For instance, a method similar to 5′ RACE is available for generatingthe missing 5′ end of a desired full-length transcript. (Fromont-Racineet al., Nucleic Acids Res. 21(7):1683-1684 (1993)).

Briefly, a specific RNA oligonucleotide is ligated to the 5′ ends of apopulation of RNA presumably containing full-length gene RNAtranscripts. A primer set containing a primer specific to the ligatedRNA oligonucleotide and a primer specific to a known sequence of thegene of interest is used to PCR amplify the 5′ portion of the desiredfull-length gene. This amplified product may then be sequenced and usedto generate the full length gene.

This above method starts with total RNA isolated from the desiredsource, although poly-A+ RNA can be used. The RNA preparation can thenbe treated with phosphatase if necessary to eliminate 5′ phosphategroups on degraded or damaged RNA which may interfere with the later RNAligase step. The phosphatase should then be inactivated and the RNAtreated with tobacco acid pyrophosphatase in order to remove the capstructure present at the 5′ ends of messenger RNAs. This reaction leavesa 5′ phosphate group at the 5′ end of the cap cleaved RNA which can thenbe ligated to an RNA oligonucleotide using T4 RNA ligase.

This modified RNA preparation is used as a template for first strandcDNA synthesis using a gene specific oligonucleotide. The first strandsynthesis reaction is used as a template for PCR amplification of thedesired 5′ end using a primer specific to the ligated RNAoligonucleotide and a primer specific to the known sequence of the geneof interest. The resultant product is then sequenced and analyzed toconfirm that the 5′ end sequence belongs to the desired gene.

Example 2 Isolation of Genomic Clones Corresponding to a Polynucleotide

A human genomic P1 library (Genomic Systems, Inc.) is screened by PCRusing primers selected for the sequence corresponding to SEQ ID NO:Xaccording to the method described in Example 1. (See also, Sambrook.)

Example 3 Tissue Specific Expression Analysis

The Human Genome Sciences, Inc. (HGS) database is derived fromsequencing tissue and/or disease specific cDNA libraries. Librariesgenerated from a particular tissue are selected and the specific tissueexpression pattern of EST groups or assembled contigs within theselibraries is determined by comparison of the expression patterns ofthose groups or contigs within the entire database. ESTs and assembledcontigs which show tissue specific expression are selected.

The original clone from which the specific EST sequence was generated,or in the case of an assembled contig, the clone from which the 5′ mostEST sequence was generated, is obtained from the catalogued library ofclones and the insert amplified by PCR using methods known in the art.The PCR product is denatured and then transferred in 96 or 384 wellformat to a nylon membrane (Schleicher and Scheull) generating an arrayfilter of tissue specific clones. Housekeeping genes, maize genes, andknown tissue specific genes are included on the filters. These targetscan be used in signal normalization and to validate assay sensitivity.Additional targets are included to monitor probe length and specificityof hybridization.

Radioactively labeled hybridization probes are generated by first strandcDNA synthesis per the manufacturer's instructions (Life Technologies)from mRNA/RNA samples prepared from the specific tissue being analyzed(e.g., prostate, prostate cancer, ovarian, ovarian cancer, etc.). Thehybridization probes are purified by gel exclusion chromatography,quantitated, and hybridized with the array filters in hybridizationbottles at 65° C. overnight. The filters are washed under stringentconditions and signals are captured using a Fuji phosphorimager.

Data is extracted using AIS software and following backgroundsubtraction, signal normalization is performed. This includes anormalization of filter-wide expression levels between differentexperimental runs. Genes that are differentially expressed in the tissueof interest are identified.

Example 4 Chromosomal Mapping of the Polynucleotides

An oligonucleotide primer set is designed according to the sequence atthe 5′ end of SEQ ID NO:X. This primer preferably spans about 100nucleotides. This primer set is then used in a polymerase chain reactionunder the following set of conditions: 30 seconds, 95° C.; 1 minute, 56°C.; 1 minute, 70° C. This cycle is repeated 32 times followed by one 5minute cycle at 70° C. Human, mouse, and hamster DNA is used as templatein addition to a somatic cell hybrid panel containing individualchromosomes or chromosome fragments (Bios, Inc). The reactions areanalyzed on either 8% polyacrylamide gels or 3.5% agarose gels.Chromosome mapping is determined by the presence of an approximately 100bp PCR fragment in the particular somatic cell hybrid.

Example 5 Bacterial Expression of a Polypeptide

A polynucleotide encoding a polypeptide of the present invention isamplified using PCR oligonucleotide primers corresponding to the 5′ and3′ ends of the DNA sequence, as outlined in Example 1, to synthesizeinsertion fragments. The primers used to amplify the cDNA insert shouldpreferably contain restriction sites, such as BamHI and XbaI, at the 5′end of the primers in order to clone the amplified product into theexpression vector. For example, BamHI and XbaI correspond to therestriction enzyme sites on the bacterial expression vector pQE-9.(Qiagen, Inc., Chatsworth, Calif.). This plasmid vector encodesantibiotic resistance (Amp^(r)), a bacterial origin of replication(ori), an IPTG-regulatable promoter/operator (P/O), a ribosome bindingsite (RBS), a 6-histidine tag (6-His), and restriction enzyme cloningsites.

The pQE-9 vector is digested with BamHI and XbaI and the amplifiedfragment is ligated into the pQE-9 vector maintaining the reading frameinitiated at the bacterial RBS. The ligation mixture is then used totransform the E. coli strain M15/rep4 (Qiagen, Inc.) which containsmultiple copies of the plasmid pREP4, which expresses the lacI repressorand also confers kanamycin resistance (Kan^(r)). Transformants areidentified by their ability to grow on LB plates andampicillin/kanamycin resistant colonies are selected. Plasmid DNA isisolated and confirmed by restriction analysis.

Clones containing the desired constructs are grown overnight (O/N) inliquid culture in LB media supplemented with both Amp (100 ug/ml) andKan (25 ug/ml). The O/N culture is used to inoculate a large culture ata ratio of 1:100 to 1:250. The cells are grown to an optical density 600(O.D.⁶⁰⁰) of between 0.4 and 0.6. IPTG (Isopropyl-B-D-thiogalactopyranoside) is then added to a final concentration of 1 mM. IPTG inducesby inactivating the lacI repressor, clearing the P/O leading toincreased gene expression.

Cells are grown for an extra 3 to 4 hours. Cells are then harvested bycentrifugation (20 mins at 6000×g). The cell pellet is solubilized inthe chaotropic agent 6 Molar Guanidine HCl by stirring for 3-4 hours at4° C. The cell debris is removed by centrifugation, and the supernatantcontaining the polypeptide is loaded onto a nickel-nitrilo-tri-aceticacid (“Ni-NTA”) affinity resin column (available from QIAGEN, Inc.,supra). Proteins with a 6×His tag bind to the Ni-NTA resin with highaffinity and can be purified in a simple one-step procedure (for detailssee: The QIAexpressionist (1995) QIAGEN, Inc., supra).

Briefly, the supernatant is loaded onto the column in 6 M guanidine-HCl,pH 8. The column is first washed with 10 volumes of 6 M guanidine-HCl,pH 8, then washed with 10 volumes of 6 M guanidine-HCl pH 6, and finallythe polypeptide is eluted with 6 M guanidine-HCl, pH 5.

The purified protein is then renatured by dialyzing it againstphosphate-buffered saline (PBS) or 50 mM Na-acetate, pH 6 buffer plus200 mM NaCl. Alternatively, the protein can be successfully refoldedwhile immobilized on the Ni-NTA column. The recommended conditions areas follows: renature using a linear 6M-1M urea gradient in 500 mM NaCl,20% glycerol, 20 mM Tris/HCl pH 7.4, containing protease inhibitors. Therenaturation should be performed over a period of 1.5 hours or more.After renaturation the proteins are eluted by the addition of 250 mMimmidazole. Immidazole is removed by a final dialyzing step against PBSor 50 mM sodium acetate pH 6 buffer plus 200 mM NaCl. The purifiedprotein is stored at 4° C. or frozen at −80° C.

In addition to the above expression vector, the present inventionfurther includes an expression vector, called pHE4a (ATCC AccessionNumber 209645, deposited on Feb. 25, 1998) which contains phage operatorand promoter elements operatively linked to a polynucleotide of thepresent invention, called pHE4a. (ATCC Accession Number 209645,deposited on Feb. 25, 1998.) This vector contains: 1) aneomycinphosphotransferase gene as a selection marker, 2) an E. coliorigin of replication, 3) a T5 phage promoter sequence, 4) two lacoperator sequences, 5) a Shine-Delgarno sequence, and 6) the lactoseoperon repressor gene (lacIq). The origin of replication (oriC) isderived from pUC19 (LTI, Gaithersburg, Md.). The promoter and operatorsequences are made synthetically.

DNA can be inserted into the pHFE4a by restricting the vector with NdeIand XbaI, BamHI, XhoI, or Asp718, running the restricted product on agel, and isolating the larger fragment (the stuffer fragment should beabout 310 base pairs). The DNA insert is generated according to the PCRprotocol described in Example 1, using PCR primers having restrictionsites for NdeI (5′ primer) and XbaI, BamHI, XhoI, or Asp718 (3′ primer).The PCR insert is gel purified and restricted with compatible enzymes.The insert and vector are ligated according to standard protocols.

The engineered vector could easily be substituted in the above protocolto express protein in a bacterial system.

Example 6 Purification of a Polypeptide from an Inclusion Body

The following alternative method can be used to purify a polypeptideexpressed in E coli when it is present in the form of inclusion bodies.Unless otherwise specified, all of the following steps are conducted at4-10° C.

Upon completion of the production phase of the E. coli fermentation, thecell culture is cooled to 4-10° C. and the cells harvested by continuouscentrifugation at 15,000 rpm (Heraeus Sepatech). On the basis of theexpected yield of protein per unit weight of cell paste and the amountof purified protein required, an appropriate amount of cell paste, byweight, is suspended in a buffer solution containing 100 mM Tris, 50 mMEDTA, pH 7.4. The cells are dispersed to a homogeneous suspension usinga high shear mixer.

The cells are then lysed by passing the solution through amicrofluidizer (Microfuidics, Corp. or APV Gaulin, Inc.) twice at4000-6000 psi. The homogenate is then mixed with NaCl solution to afinal concentration of 0.5 M NaCl, followed by centrifugation at 7000×gfor 15 min. The resultant pellet is washed again using 0.5M NaCl, 100 mMTris, 50 mM EDTA, pH 7.4.

The resulting washed inclusion bodies are solubilized with 1.5 Mguanidine hydrochloride (GuHCl) for 2-4 hours. After 7000×gcentrifugation for 15 min., the pellet is discarded and the polypeptidecontaining supernatant is incubated at 4° C. overnight to allow furtherGuHCl extraction.

Following high speed centrifugation (30,000×g) to remove insolubleparticles, the GuHCl solubilized protein is refolded by quickly mixingthe GuHCl extract with 20 volumes of buffer containing 50 mM sodium, pH4.5, 150 mM NaCl, 2 mM EDTA by vigorous stirring. The refolded dilutedprotein solution is kept at 4° C. without mixing for 12 hours prior tofurther purification steps.

To clarify the refolded polypeptide solution, a previously preparedtangential filtration unit equipped with 0.16 μm membrane filter withappropriate surface area (e.g., Filtron), equilibrated with 40 mM sodiumacetate, pH 6.0 is employed. The filtered sample is loaded onto a cationexchange resin (e.g., Poros HS-50, Perseptive Biosystems). The column iswashed with 40 mM sodium acetate, pH 6.0 and eluted with 250 mM, 500 mM,1000 mM, and 1500 mM NaCl in the same buffer, in a stepwise manner. Theabsorbance at 280 nm of the effluent is continuously monitored.Fractions are collected and further analyzed by SDS-PAGE.

Fractions containing the polypeptide are then pooled and mixed with 4volumes of water. The diluted sample is then loaded onto a previouslyprepared set of tandem columns of strong anion (Poros HQ-50, PerseptiveBiosystems) and weak anion (Poros CM-20, Perseptive Biosystems) exchangeresins. The columns are equilibrated with 40 mM sodium acetate, pH 6.0.Both columns are washed with 40 mM sodium acetate, pH 6.0, 200 mM NaCl.The CM-20 column is then eluted using a 10 column volume linear gradientranging from 0.2 M NaCl, 50 mM sodium acetate, pH 6.0 to 1.0 M NaCl, 50mM sodium acetate, pH 6.5. Fractions are collected under constant A₂₈₀monitoring of the effluent. Fractions containing the polypeptide(determined, for instance, by 16% SDS-PAGE) are then pooled.

The resultant polypeptide should exhibit greater than 95% purity afterthe above refolding and purification steps. No major contaminant bandsshould be observed from Commassie blue stained 16% SDS-PAGE gel when 5μg of purified protein is loaded. The purified protein can also betested for endotoxin/LPS contamination, and typically the LPS content isless than 0.1 ng/ml according to LAL assays.

Example 7 Cloning and Expression of a Polypeptide in a BaculovirusExpression System

In this example, the plasmid shuttle vector pA2 is used to insert apolynucleotide into a baculovirus to express a polypeptide. Thisexpression vector contains the strong polyhedrin promoter of theAutographa californica nuclear polyhedrosis virus (AcMNPV) followed byconvenient restriction sites such as BamHI, Xba I and Asp718. Thepolyadenylation site of the simian virus 40 (“SV40”) is used forefficient polyadenylation. For easy selection of recombinant virus, theplasmid contains the beta-galactosidase gene from E. coli under controlof a weak Drosophila promoter in the same orientation, followed by thepolyadenylation signal of the polyhedrin gene. The inserted genes areflanked on both sides by viral sequences for cell-mediated homologousrecombination with wild-type viral DNA to generate a viable virus thatexpress the cloned polynucleotide.

Many other baculovirus vectors can be used in place of the vector above,such as pAc373, pVL941, and pAcIM1, as one skilled in the art wouldreadily appreciate, as long as the construct provides appropriatelylocated signals for transcription, translation, secretion and the like,including a signal peptide and an in-frame AUG as required. Such vectorsare described, for instance, in Luckow et al., Virology 170:31-39(1989).

Specifically, the cDNA sequence contained in the deposited clone,including the AUG initiation codon, is amplified using the PCR protocoldescribed in Example 1. If a naturally occurring signal sequence is usedto produce the polypeptide of the present invention, the pA2 vector doesnot need a second signal peptide. Alternatively, the vector can bemodified (pA2 GP) to include a baculovirus leader sequence, using thestandard methods described in Summers et al., “A Manual of Methods forBaculovirus Vectors and Insect Cell Culture Procedures,” TexasAgricultural Experimental Station Bulletin No. 1555 (1987).

The amplified fragment is isolated from a 1% agarose gel using acommercially available kit (“Geneclean,” BIO 101 Inc., La Jolla,Calif.). The fragment then is digested with appropriate restrictionenzymes and again purified on a 1% agarose gel.

The plasmid is digested with the corresponding restriction enzymes andoptionally, can be dephosphorylated using calf intestinal phosphatase,using routine procedures known in the art. The DNA is then isolated froma 1% agarose gel using a commercially available kit (“Geneclean” BIO 101Inc., La Jolla, Calif.).

The fragment and the dephosphorylated plasmid are ligated together withT4 DNA ligase. E. coli HB101 or other suitable E. coli hosts such asXL-1 Blue (Stratagene Cloning Systems, La Jolla, Calif.) cells aretransformed with the ligation mixture and spread on culture plates.Bacteria containing the plasmid are identified by digesting DNA fromindividual colonies and analyzing the digestion product by gelelectrophoresis. The sequence of the cloned fragment is confirmed by DNAsequencing.

Five μg of a plasmid containing the polynucleotide is co-transfectedwith 1.0 μg of a commercially available linearized baculovirus DNA(“BaculoGold™ baculovirus DNA, Pharmingen, San Diego, Calif.), using thelipofection method described by Felgner et al., Proc. Natl. Acad. Sci.USA 84:7413-7417 (1987). One μg of BaculoGold™ virus DNA and 5 μg of theplasmid are mixed in a sterile well of a microtiter plate containing 50μl of serum-free Grace's medium (Life Technologies Inc., Gaithersburg,Md.). Afterwards, 10 μl Lipofectin plus 90 μl Grace's medium are added,mixed and incubated for 15 minutes at room temperature. Then thetransfection mixture is added drop-wise to Sf9 insect cells (ATCC CRL1711) seeded in a 35 mm tissue culture plate with 1 ml Grace's mediumwithout serum. The plate is then incubated for 5 hours at 27° C. Thetransfection solution is then removed from the plate and 1 ml of Grace'sinsect medium supplemented with 10% fetal calf serum is added.Cultivation is then continued at 27° C. for four days.

After four days the supernatant is collected and a plaque assay isperformed, as described by Summers and Smith, supra. An agarose gel with“Blue Gal” (Life Technologies Inc., Gaithersburg) is used to allow easyidentification and isolation of gal-expressing clones, which produceblue-stained plaques. (A detailed description of a “plaque assay” ofthis type can also be found in the user's guide for insect cell cultureand baculovirology distributed by Life Technologies Inc., Gaithersburg,page 9-10.) After appropriate incubation, blue stained plaques arepicked with the tip of a micropipettor (e.g., Eppendorf). The agarcontaining the recombinant viruses is then resuspended in amicrocentrifuge tube containing 200 μl of Grace's medium and thesuspension containing the recombinant baculovirus is used to infect Sf9cells seeded in 35 mm dishes. Four days later the supernatants of theseculture dishes are harvested and then they are stored at 4° C.

To verify the expression of the polypeptide, Sf9 cells are grown inGrace's medium supplemented with 10% heat-inactivated FBS. The cells areinfected with the recombinant baculovirus containing the polynucleotideat a multiplicity of infection (“MOI”) of about 2. If radiolabeledproteins are desired, 6 hours later the medium is removed and isreplaced with SF900 II medium minus methionine and cysteine (availablefrom Life Technologies Inc., Rockville, Md.). After 42 hours, 5 μCi of³⁵S-methionine and 5 μCi ³⁵S-cysteine (available from Amersham) areadded. The cells are further incubated for 16 hours and then areharvested by centrifugation. The proteins in the supernatant as well asthe intracellular proteins are analyzed by SDS-PAGE followed byautoradiography (if radiolabeled).

Microsequencing of the amino acid sequence of the amino terminus ofpurified protein may be used to determine the amino terminal sequence ofthe produced protein.

Example 8 Expression of a Polypeptide in Mammalian Cells

The polypeptide of the present invention can be expressed in a mammaliancell. A typical mammalian expression vector contains a promoter element,which mediates the initiation of transcription of mRNA, a protein codingsequence, and signals required for the termination of transcription andpolyadenylation of the transcript. Additional elements includeenhancers, Kozak sequences and intervening sequences flanked by donorand acceptor sites for RNA splicing. Highly efficient transcription isachieved with the early and late promoters from SV40, the long terminalrepeats (LTRs) from Retroviruses, e.g., RSV, HTLVI, HIVI and the earlypromoter of the cytomegalovirus (CMV). However, cellular elements canalso be used (e.g., the human actin promoter).

Suitable expression vectors for use in practicing the present inventioninclude, for example, vectors such as pSVL and pMSG (Pharmacia, Uppsala,Sweden), pRSVcat (ATCC 37152), pSV2dhfr (ATCC 37146), pBC12MI (ATCC67109), pCMVSport 2.0, and pCMVSport 3.0. Mammalian host cells thatcould be used include, human Hela, 293, H9 and Jurkat cells, mouseNIH3T3 and C127 cells, Cos 1, Cos 7 and CV1, quail QC1-3 cells, mouse Lcells and Chinese hamster ovary (CHO) cells.

Alternatively, the polypeptide can be expressed in stable cell linescontaining the polynucleotide integrated into a chromosome. Theco-transfection with a selectable marker such as DHFR, gpt, neomycin, orhygromycin allows the identification and isolation of the transfectedcells.

The transfected gene can also be amplified to express large amounts ofthe encoded protein. The DHFR (dihydrofolate reductase) marker is usefulin developing cell lines that carry several hundred or even severalthousand copies of the gene of interest. (See, e.g., Alt, F. W., et al.,J. Biol. Chem. 253:1357-1370 (1978); Hamlin, J. L. and Ma, C., Biochem.et Biophys. Acta, 1097:107-143 (1990); Page, M. J. and Sydenham, M. A.,Biotechnology 9:64-68 (1991)). Another useful selection marker is theenzyme glutamine synthase (GS) (Murphy et al., Biochem J. 227:277-279(1991); Bebbington et al., Bio/Technology 10:169-175 (1992). Using thesemarkers, the mammalian cells are grown in selective medium and the cellswith the highest resistance are selected. These cell lines contain theamplified gene(s) integrated into a chromosome. Chinese hamster ovary(CHO) and NSO cells are often used for the production of proteins.

Derivatives of the plasmid pSV2-dhfr (ATCC Accession No. 37146), theexpression vectors pC4 (ATCC Accession No. 209646) and pC6 (ATCCAccession No. 209647) contain the strong promoter (LTR) of the RousSarcoma Virus (Cullen et al., Molecular and Cellular Biology, 438-447(March, 1985)) plus a fragment of the CMV-enhancer (Boshart et al., Cell41:521-530 (1985)). Multiple cloning sites, e.g., with the restrictionenzyme cleavage sites BamHI, XbaI and Asp718, facilitate the cloning ofthe gene of interest. The vectors also contain the 3′ intron, thepolyadenylation and termination signal of the rat preproinsulin gene,and the mouse DHFR gene under control of the SV40 early promoter.

Specifically, the plasmid pC6, for example, is digested with appropriaterestriction enzymes and then dephosphorylated using calf intestinalphosphates by procedures known in the art. The vector is then isolatedfrom a 1% agarose gel.

A polynucleotide of the present invention is amplified according to theprotocol outlined in Example 1. If a naturally occurring signal sequenceis used to produce the polypeptide of the present invention, the vectordoes not need a second signal peptide. Alternatively, if a naturallyoccurring signal sequence is not used, the vector can be modified toinclude a heterologous signal sequence. (See, e.g., InternationalPublication No. WO 96/34891.)

The amplified fragment is isolated from a 1% agarose gel using acommercially available kit (“Geneclean,” BIO 101 Inc., La Jolla,Calif.). The fragment then is digested with appropriate restrictionenzymes and again purified on a 1% agarose gel.

The amplified fragment is then digested with the same restriction enzymeand purified on a 1% agarose gel. The isolated fragment and thedephosphorylated vector are then ligated with T4 DNA ligase. E. coliHB101 or XL-1 Blue cells are then transformed and bacteria areidentified that contain the fragment inserted into plasmid pC6 using,for instance, restriction enzyme analysis.

Chinese hamster ovary cells lacking an active DHFR gene is used fortransfection. Five μg of the expression plasmid pC6 or pC4 iscotransfected with 0.5 μg of the plasmid pSVneo using lipofectin(Felgner et al., supra). The plasmid pSV2-neo contains a dominantselectable marker, the neo gene from Tn5 encoding an enzyme that confersresistance to a group of antibiotics including G418. The cells areseeded in alpha minus MEM supplemented with 1 mg/ml G418. After 2 days,the cells are trypsinized and seeded in hybridoma cloning plates(Greiner, Germany) in alpha minus MEM supplemented with 10, 25, or 50ng/ml of methotrexate plus 1 mg/ml G418. After about 10-14 days singleclones are trypsinized and then seeded in 6-well petri dishes or 10 mlflasks using different concentrations of methotrexate (50 nM, 100 nM,200 nM, 400 nM, 800 nM). Clones growing at the highest concentrations ofmethotrexate are then transferred to new 6-well plates containing evenhigher concentrations of methotrexate (1 μM, 2 μM, 5 μM, 10 mM, 20 mM).The same procedure is repeated until clones are obtained which grow at aconcentration of 100-200 μM. Expression of the desired gene product isanalyzed, for instance, by SDS-PAGE and Western blot or by reversedphase HPLC analysis.

Example 9 Protein Fusions

The polypeptides of the present invention are preferably fused to otherproteins. These fusion proteins can be used for a variety ofapplications. For example, fusion of the present polypeptides toHis-tag, HA-tag, protein A, IgG domains, and maltose binding proteinfacilitates purification. (See Example 5; see also EP A 394,827;Traunecker, et al., Nature 331:84-86 (1988)). Similarly, fusion toIgG-1, IgG-3, and albumin increases the halflife time in vivo. Nuclearlocalization signals fused to the polypeptides of the present inventioncan target the protein to a specific subcellular localization, whilecovalent heterodimer or homodimers can increase or decrease the activityof a fusion protein. Fusion proteins can also create chimeric moleculeshaving more than one function. Finally, fusion proteins can increasesolubility and/or stability of the fused protein compared to thenon-fused protein. All of the types of fusion proteins described abovecan be made by modifying the following protocol, which outlines thefusion of a polypeptide to an IgG molecule, or the protocol described inExample 5.

Briefly, the human Fc portion of the IgG molecule can be PCR amplified,using primers that span the 5′ and 3′ ends of the sequence describedbelow. These primers also should have convenient restriction enzymesites that will facilitate cloning into an expression vector, preferablya mammalian expression vector.

For example, if pC4 (ATCC Accession No. 209646) is used, the human Fcportion can be ligated into the BamHI cloning site. Note that the 3′BamHI site should be destroyed. Next, the vector containing the human Fcportion is re-restricted with BamHI, linearizing the vector, and apolynucleotide of the present invention, isolated by the PCR protocoldescribed in Example 1, is ligated into this BamHI site. Note that thepolynucleotide is cloned without a stop codon, otherwise a fusionprotein will not be produced.

If the naturally occurring signal sequence is used to produce thepolypeptide of the present invention, pC4 does not need a second signalpeptide. Alternatively, if the naturally occurring signal sequence isnot used, the vector can be modified to include a heterologous signalsequence. (See, e.g., International Publication No. WO 96/34891.) HumanIgG Fc region: GGGATGCGGAGCCCAAATCTTCTGACAAAACTCACAC (SEQ ID NO:1)ATGCCCACCGTGGCCAGCACCTGAATTCGAGGGTGCACCGTCAGTCTTCCTCTTCCCCCCAAAACCCAAGGACACCCTGATGATCTCCCGGACTCCTGAGGTCACATGCGTGGTGGTGGACGTAAGCCACGAAGACCCTGAGGTCAAGTTCAACTGGTACGTGGACGGCGTGGAGGTGCATAATGCCAAGACAAAGCCGCGGGAGGAGCAGTACAACAGCACGTACCGTGTGGTCAGCGTCCTCACCGTCCTGCACCAGGACTGGCTGAATGGCAAGGAGTACAAGTGCAAGGTCTCCAACAAAGCCCTCCCAACCCCCATCGAGAAAACCATCTCCAAAGCCAAAGGGCAGCCCCGAGAACCACAGGTGTACACCCTGCCCCCATCCCGGGATGAGCTGACCAAGAACCAGGTCAGCCTGACCTGCCTGGTCAAAGGCTTCTATCCAAGCGACATCGCCGTGGAGTGGGAGAGCAATGGGCAGCCGGAGAAGAACTACAAGACCACGCCTCCCGTGCTGGACTCCGACGGCTCCTTCTTCCTCTACAGCAAGCTCACCGTGGACAAGAGCAGGTGGCAGCAGGGGAACGTCTTCTCATGCTCCGTGATGCATGAGGCTCTGCACAACCACTACACGCAGAAGAGCCTCTCCCTGTCTCCGGGTAA ATGAGTGCGACGGCCGCGACTCTAGAGGAT

Example 10 Production of an Antibody from a Polypeptide

a) Hybridoma Technology

The antibodies of the present invention can be prepared by a variety ofmethods. (See, Current Protocols, Chapter 2.) As one example of suchmethods, cells expressing a polypeptide of the present invention areadministered to an animal to induce the production of sera containingpolyclonal antibodies. In a preferred method, a preparation of apolypeptide of the present invention is prepared and purified to renderit substantially free of natural contaminants. Such a preparation isthen introduced into an animal in order to produce polyclonal antiseraof greater specific activity.

Monoclonal antibodies specific for a polypeptide of the presentinvention are prepared using hybridoma technology (Kohler et al., Nature256:495 (1975); Kohler et al., Eur. J. Immunol. 6:511 (1976); Kohler etal., Eur. J. Immunol. 6:292 (1976); Hammerling et al., in: MonoclonalAntibodies and T-Cell Hybridomas, Elsevier, N.Y., pp. 563-681 (1981)).In general, an animal (preferably a mouse) is immunized with apolypeptide of the present invention or, more preferably, with asecreted polypeptide-expressing cell. Such polypeptide-expressing cellsare cultured in any suitable tissue culture medium, preferably inEarle's modified Eagle's medium supplemented with 10% fetal bovine serum(inactivated at about 56° C.), and supplemented with about 10 g/l ofnonessential amino acids, about 1,000 U/ml of penicillin, and about 100μg/ml of streptomycin.

The splenocytes of such mice are extracted and fused with a suitablemyeloma cell line. Any suitable myeloma cell line may be employed inaccordance with the present invention; however, it is preferable toemploy the parent myeloma cell line (SP2O), available from the ATCC.After fusion, the resulting hybridoma cells are selectively maintainedin HAT medium, and then cloned by limiting dilution as described byWands et al. (Gastroenterology 80:225-232 (1981)). The hybridoma cellsobtained through such a selection are then assayed to identify cloneswhich secrete antibodies capable of binding the polypeptide of thepresent invention.

Alternatively, additional antibodies capable of binding to a polypeptideof the present invention can be produced in a two-step procedure usinganti-idiotypic antibodies. Such a method makes use of the fact thatantibodies are themselves antigens, and therefore, it is possible toobtain an antibody which binds to a second antibody. In accordance withthis method, protein specific antibodies are used to immunize an animal,preferably a mouse. The splenocytes of such an animal are then used toproduce hybridoma cells, and the hybridoma cells are screened toidentify clones which produce an antibody whose ability to bind to thepolypeptide-specific antibody can be blocked by said polypeptide. Suchantibodies comprise anti-idiotypic antibodies to thepolypeptide-specific antibody and are used to immunize an animal toinduce formation of further polypeptide-specific antibodies.

For in vivo use of antibodies in humans, an antibody is “humanized”.Such antibodies can be produced using genetic constructs derived fromhybridoma cells producing the monoclonal antibodies described above.Methods for producing chimeric and humanized antibodies are known in theart and are discussed herein. (See, for review, Morrison, Science229:1202 (1985); Oi et al., BioTechniques 4:214 (1986); Cabilly et al.,U.S. Pat. No. 4,816,567; Taniguchi et al., EP 171496; Morrison et al.,EP 173494; Neuberger et al., WO 8601533; Robinson et al., InternationalPublication No. WO 8702671; Boulianne et al., Nature 312:643 (1984);Neuberger et al., Nature 314:268 (1985)).

b) Isolation of Antibody Fragments Directed Against a Polypeptide of thePresent Invention from a Library of scFvs

Naturally occurring V-genes isolated from human PBLs are constructedinto a library of antibody fragments which contain reactivities againsta polypeptide of the present invention to which the donor may or may nothave been exposed (see e.g., U.S. Pat. No. 5,885,793 incorporated hereinby reference in its entirety).

Rescue of the Library. A library of scFvs is constructed from the RNA ofhuman PBLs as described in International Publication No. WO 92/01047. Torescue phage displaying antibody fragments, approximately 10⁹ E. coliharboring the phagemid are used to inoculate 50 ml of 2×TY containing 1%glucose and 100 μg/ml of ampicillin (2×TY-AMP-GLU) and grown to an O.D.of 0.8 with shaking. Five ml of this culture is used to inoculate 50 mlof 2×TY-AMP-GLU, 2×108 TU of delta gene 3 helper (M13 delta gene III,see International Publication No. WO 92/01047) are added and the cultureincubated at 37° C. for 45 minutes without shaking and then at 37° C.for 45 minutes with shaking. The culture is centrifuged at 4000 r.p.m.for 10 min. and the pellet resuspended in 2 liters of 2×TY containing100 μg/ml ampicillin and 50 ug/ml kanamycin and grown overnight. Phageare prepared as described in International Publication No. WO 92/01047.

M13 delta gene III is prepared as follows: M13 delta gene III helperphage does not encode gene III protein, hence the phage(mid) displayingantibody fragments have a greater avidity of binding to antigen.Infectious M13 delta gene III particles are made by growing the helperphage in cells harboring a pUC19 derivative supplying the wild type geneIII protein during phage morphogenesis. The culture is incubated for 1hour at 37° C. without shaking and then for a further hour at 37° C.with shaking. Cells are spun down (IEC-Centra 8,400 r.p.m. for 10 min),resuspended in 300 ml 2×TY broth containing 100 μg ampicillin/ml and 25μg kanamycin/ml (2×TY-AMP-KAN) and grown overnight, shaking at 37° C.Phage particles are purified and concentrated from the culture medium bytwo PEG-precipitations (Sambrook et al., 1990), resuspended in 2 ml PBSand passed through a 0.45 μm filter (Minisart NML; Sartorius) to give afinal concentration of approximately 10¹³ transducing units/ml(ampicillin-resistant clones).

Panning of the Library. Immunotubes (Nunc) are coated overnight in PBSwith 4 ml of either 100 μg/ml or 10 μg/ml of a polypeptide of thepresent invention. Tubes are blocked with 2% Marvel-PBS for 2 hours at37° C. and then washed 3 times in PBS. Approximately 10¹³ TU of phage isapplied to the tube and incubated for 30 minutes at room temperaturetumbling on an over and under turntable and then left to stand foranother 1.5 hours. Tubes are washed 10 times with PBS 0.1% Tween-20 and10 times with PBS. Phage are eluted by adding 1 ml of 100 mMtriethylamine and rotating 15 minutes on an under and over turntableafter which the solution is immediately neutralized with 0.5 ml of 1.0MTris-HCl, pH 7.4. Phage are then used to infect 10 ml of mid-log E. coliTG1 by incubating eluted phage with bacteria for 30 minutes at 37° C.The E. coli are then plated on TYE plates containing 1% glucose and 100μg/ml ampicillin. The resulting bacterial library is then rescued withdelta gene 3 helper phage as described above to prepare phage for asubsequent round of selection. This process is then repeated for a totalof 4 rounds of affinity purification with tube-washing increased to 20times with PBS, 0.1% Tween-20 and 20 times with PBS for rounds 3 and 4.

Characterization of Binders. Eluted phage from the 3rd and 4th rounds ofselection are used to infect E. coli HB 2151 and soluble scFv isproduced (Marks, et al., 1991) from single colonies for assay. ELISAsare performed with microtitre plates coated with either 10 pg/ml of thepolypeptide of the present invention in 50 mM bicarbonate pH 9.6. Clonespositive in ELISA are further characterized by PCR fingerprinting (see,e.g., International Publication No. WO 92/01047) and then by sequencing.These ELISA positive clones may also be further characterized bytechniques known in the art, such as, for example, epitope mapping,binding affinity, receptor signal transduction, ability to block orcompetitively inhibit antibody/antigen binding, and competitiveagonistic or antagonistic activity.

Example 11 Method of Determining Alterations in a Gene Corresponding toa Polynucleotide

RNA isolated from entire families or individual patients presenting withan allergic and/or asthmatic disease or disorder is isolated. cDNA isthen generated from these RNA samples using protocols known in the art.(See, Sambrook.) The cDNA is then used as a template for PCR, employingprimers surrounding regions of interest in SEQ ID NO:X; and/or thenucleotide sequence of the cDNA contained in ATCC Deposit No: Z.Suggested PCR conditions consist of 35 cycles at 95 degrees C. for 30seconds; 60-120 seconds at 52-58 degrees C.; and 60-120 seconds at 70degrees C., using buffer solutions described in Sidransky et al.,Science 252:706 (1991).

PCR products are then sequenced using primers labeled at their 5′ endwith T4 polynucleotide kinase, employing SequiTherm Polymerase(Epicentre Technologies). The intron-exon boundaries of selected exonsis also determined and genomic PCR products analyzed to confirm theresults. PCR products harboring suspected mutations are then cloned andsequenced to validate the results of the direct sequencing.

PCR products are cloned into T-tailed vectors as described in Holton etal., Nucleic Acids Research, 19:1156 (1991) and sequenced with T7polymerase (United States Biochemical). Affected individuals areidentified by mutations not present in unaffected individuals.

Genomic rearrangements are also observed as a method of determiningalterations in a gene corresponding to a polynucleotide. Genomic clonesisolated according to Example 2 are nick-translated withdigoxigenindeoxy-uridine 5′-triphosphate (Boehringer Manheim), and FISHperformed as described in Johnson et al., Methods Cell Biol. 35:73-99(1991). Hybridization with the labeled probe is carried out using a vastexcess of human cot-1 DNA for specific hybridization to thecorresponding genomic locus.

Chromosomes are counterstained with 4,6-diamino-2-phenylidole andpropidium iodide, producing a combination of C- and R-bands. Alignedimages for precise mapping are obtained using a triple-band filter set(Chroma Technology, Brattleboro, Vt.) in combination with a cooledcharge-coupled device camera (Photometrics, Tucson, Ariz.) and variableexcitation wavelength filters. (Johnson et al., Genet. Anal. Tech.Appl., 8:75 (1991)). Image collection, analysis and chromosomalfractional length measurements are performed using the ISee GraphicalProgram System. (Inovision Corporation, Durham, N.C.) Chromosomealterations of the genomic region hybridized by the probe are identifiedas insertions, deletions, and translocations. These alterations are usedas a diagnostic marker for an associated disease.

Example 12 Method of Detecting Abnormal Levels of a Polypeptide in aBiological Sample

A polypeptide of the present invention can be detected in a biologicalsample, and if an increased or decreased level of the polypeptide isdetected, this polypeptide is a marker for a particular phenotype.Methods of detection are numerous, and thus, it is understood that oneskilled in the art can modify the following assay to fit theirparticular needs.

For example, antibody-sandwich ELISAs are used to detect polypeptides ina sample, preferably a biological sample. Wells of a microtiter plateare coated with specific antibodies, at a final concentration of 0.2 to10 ug/ml. The antibodies are either monoclonal or polyclonal and areproduced by the method described in Example 10. The wells are blocked sothat non-specific binding of the polypeptide to the well is reduced.

The coated wells are then incubated for >2 hours at RT with a samplecontaining the polypeptide. Preferably, serial dilutions of the sampleshould be used to validate results. The plates are then washed threetimes with deionized or distilled water to remove unbound polypeptide.

Next, 50 ul of specific antibody-alkaline phosphatase conjugate, at aconcentration of 25-400 ng, is added and incubated for 2 hours at roomtemperature. The plates are again washed three times with deionized ordistilled water to remove unbound conjugate.

Add 75 ul of 4-methylumbelliferyl phosphate (MUP) or p-nitrophenylphosphate (NPP) substrate solution to each well and incubate 1 hour atroom temperature. Measure the reaction by a microtiter plate reader.Prepare a standard curve, using serial dilutions of a control sample,and plot polypeptide concentration on the X-axis (log scale) andfluorescence or absorbance of the Y-axis (linear scale). Interpolate theconcentration of the polypeptide in the sample using the standard curve.

Example 13 Formulation

The invention also provides methods of preventing, treating and/orameliorating an allergic and/or asthmatic disease or disorder byadministration to a subject of an effective amount of a Therapeutic. Bytherapeutic is meant polynucleotides or polypeptides of the invention(including fragments and variants), agonists or antagonists thereof,and/or antibodies thereto, in combination with a pharmaceuticallyacceptable carrier type (e.g., a sterile carrier).

The Therapeutic will be formulated and dosed in a fashion consistentwith good medical practice, taking into account the clinical conditionof the individual patient (especially the side effects of treatment withthe Therapeutic alone), the site of delivery, the method ofadministration, the scheduling of administration, and other factorsknown to practitioners. The “effective amount” for purposes herein isthus determined by such considerations.

As a general proposition, the total pharmaceutically effective amount ofthe Therapeutic administered parenterally per dose will be in the rangeof about 1 ug/kg/day to 10 mg/kg/day of patient body weight, although,as noted above, this will be subject to therapeutic discretion. Morepreferably, this dose is at least 0.01 mg/kg/day, and most preferablyfor humans between about 0.01 and 1 mg/kg/day for the hormone. If givencontinuously, the Therapeutic is typically administered at a dose rateof about 1 ug/kg/hour to about 50 ug/kg/hour, either by 1-4 injectionsper day or by continuous subcutaneous infusions, for example, using amini-pump. An intravenous bag solution may also be employed. The lengthof treatment needed to observe changes and the interval followingtreatment for responses to occur appears to vary depending on thedesired effect.

Therapeutics can be are administered orally, rectally, parenterally,intracistemally, intravaginally, intraperitoneally, topically (as bypowders, ointments, gels, drops or transdermal patch), bucally, or as anoral or nasal spray. “Pharmaceutically acceptable carrier” refers to anon-toxic solid, semisolid or liquid filler, diluent, encapsulatingmaterial or formulation auxiliary of any. The term “parenteral” as usedherein refers to modes of administration which include intravenous,intramuscular, intraperitoneal, intrasternal, subcutaneous andintraarticular injection and infusion.

Therapeutics of the invention are also suitably administered bysustained-release systems. Suitable examples of sustained-releaseTherapeutics are administered orally, rectally, parenterally,intracistemally, intravaginally, intraperitoneally, topically (as bypowders, ointments, gels, drops or transdermal patch), bucally, or as anoral or nasal spray. “Pharmaceutically acceptable carrier” refers to anon-toxic solid, semisolid or liquid filler, diluent, encapsulatingmaterial or formulation auxiliary of any type. The term “parenteral” asused herein refers to modes of administration which include intravenous,intramuscular, intraperitoneal, intrasternal, subcutaneous andintraarticular injection and infusion.

Therapeutics of the invention are also suitably administered bysustained-release systems. Suitable examples of sustained-releaseTherapeutics include suitable polymeric materials (such as, for example,semi-permeable polymer matrices in the form of shaped articles, e.g.,films, or mirocapsules), suitable hydrophobic materials (for example asan emulsion in an acceptable oil) or ion exchange resins, and sparinglysoluble derivatives (such as, for example, a sparingly soluble salt).

Sustained-release matrices include polylactides (U.S. Pat. No.3,773,919, EP 58,481), copolymers of L-glutamic acid andgamma-ethyl-L-glutamate (Sidman et al., Biopolymers 22:547-556 (1983)),poly (2-hydroxyethyl methacrylate) (Langer et al., J. Biomed. Mater.Res. 15:167-277 (1981), and Langer, Chem. Tech. 12:98-105 (1982)),ethylene vinyl acetate (Langer et al., Id.) orpoly-D-(−)-3-hydroxybutyric acid (EP 133,988).

In a preferred embodiment, polypeptide, polynucleotide, and antibodycompositions of the invention are formulated in a biodegradable,polymeric drug delivery system, for example as described in U.S. Pat.Nos. 4,938,763; 5,278,201; 5,278,202; 5,324,519; 5,340,849; and5,487,897 and in International Publication Numbers WO01/35929,WO00/24374, and WO00/06117 which are hereby incorporated by reference intheir entirety. In specific preferred embodiments the polypeptide,polynucleotide, and antibody compositions of the invention areformulated using the ATRIGEL® Biodegradable System of AtrixLaboratories, Inc. (Fort Collins, Colo.).

Examples of biodegradable polymers which can be used in the formulationof polypeptide, polynucleotide, and antibody compositions, include butare not limited to, polylactides, polyglycolides, polycaprolactones,polyanhydrides, polyamides, polyurethanes, polyesteramides,polyorthoesters, polydioxanones, polyacetals, polyketals,polycarbonates, polyorthocarbonates, polyphosphazenes,polyhydroxybutyrates, polyhydroxyvalerates, polyalkylene oxalates,polyalkylene succinates, poly(malic acid), poly(amino acids),poly(methyl vinyl ether), poly(maleic anhydride), polyvinylpyrrolidone,polyethylene glycol, polyhydroxycellulose, chitin, chitosan, andcopolymers, terpolymers, or combinations or mixtures of the abovematerials. The preferred polymers are those that have a lower degree ofcrystallization and are more hydrophobic. These polymers and copolymersare more soluble in the biocompatible solvents than the highlycrystalline polymers such as polyglycolide and chitin which also have ahigh degree of hydrogen-bonding. Preferred materials with the desiredsolubility parameters are the polylactides, polycaprolactones, andcopolymers of these with glycolide in which there are more amorphousregions to enhance solubility. In specific preferred embodiments, thebiodegradable polymers which can be used in the formulation ofpolypeptide, polynucleotide, and antibody compositions arepoly(lactide-co-glycolides). Polymer properties such as molecularweight, hydrophobicity, and lactide/glycolide ratio may be modified toobtain the desired polypeptide, polynucleotide, or antibody releaseprofile (See, e.g., Ravivarapu et al., Journal of PharmaceuticalSciences 89:732-741 (2000), which is hereby incorporated by reference inits entirety).

It is also preferred that the solvent for the biodegradable polymer benon-toxic, water miscible, and otherwise biocompatible. Examples of suchsolvents include, but are not limited to, N-methyl-2-pyrrolidone,2-pyrrolidone, C2 to C6 alkanols, C1 to C15 alchohols, dils, triols, andtetraols such as ethanol, glycerine propylene glycol, butanol; C3 to C15alkyl ketones such as acetone, diethyl ketone and methyl ethyl ketone;C3 to C15 esters such as methyl acetate, ethyl acetate, ethyl lactate;alkyl ketones such as methyl ethyl ketone, C1 to C15 amides such asdimethylformamide, dimethylacetamide and caprolactam; C3 to C20 etherssuch as tetrahydrofuran, or solketal; tweens, triacetin, propylenecarbonate, decylmethylsulfoxide, dimethyl sulfoxide, oleic acid,1-dodecylazacycloheptan-2-one, Other preferred solvents are benzylalchohol, benzyl benzoate, dipropylene glycol, tributyrin, ethyl oleate,glycerin, glycofural, isopropyl myristate, isopropyl palmitate, oleicacid, polyethylene glycol, propylene carbonate, and triethyl citrate.The most preferred solvents are N-methyl-2-pyrrolidone, 2-pyrrolidone,dimethyl sulfoxide, triacetin, and propylene carbonate because of thesolvating ability and their compatibility.

Additionally, formulations comprising polypeptide, polynucleotide, andantibody compositions and a biodegradable polymer may also includerelease-rate modification agents and/or pore-forming agents. Examples ofrelease-rate modification agents include, but are not limited to, fattyacids, triglycerides, other like hydrophobic compounds, organicsolvents, plasticizing compounds and hydrophilic compounds. Suitablerelease rate modification agents include, for example, esters of mono-,di-, and tricarboxylic acids, such as 2-ethoxyethyl acetate, methylacetate, ethyl acetate, diethyl phthalate, dimethyl phthalate, dibutylphthalate, dimethyl adipate, dimethyl succinate, dimethyl oxalate,dimethyl citrate, triethyl citrate, acetyl tributyl citrate, acetyltriethyl citrate, glycerol triacetate, di(n-butyl)sebecate, and thelike; polyhydroxy alcohols, such as propylene glycol, polyethyleneglycol, glycerin, sorbitol, and the like; fatty acids; triesters ofglycerol, such as triglycerides, epoxidized soybean oil, and otherepoxidized vegetable oils; sterols, such as cholesterol; alcohols, suchas C.sub.6-C.sub.12 alkanols, 2-ethoxyethanol. The release ratemodification agent may be used singly or in combination with other suchagents. Suitable combinations of release rate modification agentsinclude, but are not limited to, glycerin/propylene glycol,sorbitol/glycerine, ethylene oxide/propylene oxide, butyleneglycol/adipic acid, and the like. Preferred release rate modificationagents include, but are not limited to, dimethyl citrate, triethylcitrate, ethyl heptanoate, glycerin, and hexanediol. Suitablepore-forming agents that may be used in the polymer composition include,but are not limited to, sugars such as sucrose and dextrose, salts suchas sodium chloride and sodium carbonate, polymers such ashydroxylpropylcellulose, carboxymethylcellulose, polyethylene glycol,and polyvinylpyrrolidone. Solid crystals that will provide a definedpore size, such as salt or sugar, are preferred.

In specific preferred embodiments the polypeptide, polynucleotide, andantibody compositions of the invention are formulated using the BEMA™BioErodible Mucoadhesive System, MCA™ MucoCutaneous Absorption System,SMP™ Solvent MicroParticle System, or BCP™ BioCompatible Polymer Systemof Atrix Laboratories, Inc. (Fort Collins, Colo.).

Sustained-release Therapeutics also include liposomally entrappedTherapeutics of the invention (see generally, Langer, Science249:1527-1533 (1990); Treat et al., in Liposomes in the Therapy ofInfectious Disease and Cancer, Lopez-Berestein and Fidler (eds.), Liss,New York, pp. 317-327 and 353-365 (1989)). Liposomes containing theTherapeutic are prepared by methods known per se: DE 3,218,121; Epsteinet al., Proc. Natl. Acad. Sci. (USA) 82:3688-3692 (1985); Hwang et al.,Proc. Natl. Acad. Sci. (USA) 77:4030-4034 (1980); EP 52,322; EP 36,676;EP 88,046; EP 143,949; EP 142,641; Japanese Pat. Appl. 83-118008; U.S.Pat. Nos. 4,485,045 and 4,544,545; and EP 102,324. Ordinarily, theliposomes are of the small (about 200-800 Angstroms) unilamellar type inwhich the lipid content is greater than about 30 mol. percentcholesterol, the selected proportion being adjusted for the optimalTherapeutic.

In yet an additional embodiment, the Therapeutics of the invention aredelivered by way of a pump (see Langer, supra; Sefton, CRC Crit. Ref.Biomed. Eng. 14:201 (1987); Buchwald et al., Surgery 88:507 (1980);Saudek et al., N. Engl. J. Med. 321:574 (1989)).

Other controlled release systems are discussed in the review by Langer(Science 249:1527-1533 (1990)).

For parenteral administration, in one embodiment, the Therapeutic isformulated generally by mixing it at the desired degree of purity, in aunit dosage injectable form (solution, suspension, or emulsion), with apharmaceutically acceptable carrier, i.e., one that is non-toxic torecipients at the dosages and concentrations employed and is compatiblewith other ingredients of the formulation. For example, the formulationpreferably does not include oxidizing agents and other compounds thatare known to be deleterious to the Therapeutic.

Generally, the formulations are prepared by contacting the Therapeuticuniformly and intimately with liquid carriers or finely divided solidcarriers or both. Then, if necessary, the product is shaped into thedesired formulation. Preferably the carrier is a parenteral carrier,more preferably a solution that is isotonic with the blood of therecipient. Examples of such carrier vehicles include water, saline,Ringer's solution, and dextrose solution. Non-aqueous vehicles such asfixed oils and ethyl oleate are also useful herein, as well asliposomes.

The carrier suitably contains minor amounts of additives such assubstances that enhance isotonicity and chemical stability. Suchmaterials are non-toxic to recipients at the dosages and concentrationsemployed, and include buffers such as phosphate, citrate, succinate,acetic acid, and other organic acids or their salts; antioxidants suchas ascorbic acid; low molecular weight (less than about ten residues)polypeptides, e.g., polyarginine or tripeptides; proteins, such as serumalbumin, gelatin, or immunoglobulins; hydrophilic polymers such aspolyvinylpyrrolidone; amino acids, such as glycine, glutamic acid,aspartic acid, or arginine; monosaccharides, disaccharides, and othercarbohydrates including cellulose or its derivatives, glucose, manose,or dextrins; chelating agents such as EDTA; sugar alcohols such asmannitol or sorbitol; counterions such as sodium; and/or nonionicsurfactants such as polysorbates, poloxamers, or PEG.

The Therapeutic is typically formulated in such vehicles at aconcentration of about 0.1 mg/ml to 100 mg/ml, preferably 1-10 mg/ml, ata pH of about 3 to 8. It will be understood that the use of certain ofthe foregoing excipients, carriers, or stabilizers will result in theformation of polypeptide salts.

Any pharmaceutical used for therapeutic administration can be sterile.Sterility is readily accomplished by filtration through sterilefiltration membranes (e.g., 0.2 micron membranes). Therapeuticsgenerally are placed into a container having a sterile access port, forexample, an intravenous solution bag or vial having a stopper pierceableby a hypodermic injection needle.

Therapeutics ordinarily will be stored in unit or multi-dose containers,for example, sealed ampoules or vials, as an aqueous solution or as alyophilized formulation for reconstitution. As an example of alyophilized formulation, 10-ml vials are filled with 5 ml ofsterile-filtered 1% (w/v) aqueous Therapeutic solution, and theresulting mixture is lyophilized. The infusion solution is prepared byreconstituting the lyophilized Therapeutic using bacteriostaticWater-for-Injection.

The invention also provides a pharmaceutical pack or kit comprising oneor more containers filled with one or more of the ingredients of theTherapeutics of the invention. Associated with such container(s) can bea notice in the form prescribed by a governmental agency regulating themanufacture, use or sale of pharmaceuticals or biological products,which notice reflects approval by the agency of manufacture, use or salefor human administration. In addition, the Therapeutics may be employedin conjunction with other therapeutic compounds.

The Therapeutics of the invention may be administered alone or incombination with adjuvants. Adjuvants that may be administered with theTherapeutics of the invention include, but are not limited to, alum,alum plus deoxycholate (ImmunoAg), MTP-PE (Biocine Corp.), QS21(Genentech, Inc.), BCG (e.g., THERACYS®), MPL and nonviable prepartionsof Corynebacterium parvum. In a specific embodiment, Therapeutics of theinvention are administered in combination with alum. In another specificembodiment, Therapeutics of the invention are administered incombination with QS-21. Further adjuvants that may be administered withthe Therapeutics of the invention include, but are not limited to,Monophosphoryl lipid immunomodulator, AdjuVax 100a, QS-21, QS-18,CRL1005, Aluminum salts, MF-59, and Virosomal adjuvant technology.Vaccines that may be administered with the Therapeutics of the inventioninclude, but are not limited to, vaccines directed toward protectionagainst MMR (measles, mumps, rubella), polio, varicella,tetanus/diptheria, hepatitis A, hepatitis B, haemophilus influenzae B,whooping cough, pneumonia, influenza, Lyme's Disease, rotavirus,cholera, yellow fever, Japanese encephalitis, poliomyelitis, rabies,typhoid fever, and pertussis. Combinations may be administered eitherconcomitantly, e.g., as an admixture, separately but simultaneously orconcurrently; or sequentially. This includes presentations in which thecombined agents are administered together as a therapeutic mixture, andalso procedures in which the combined agents are administered separatelybut simultaneously, e.g., as through separate intravenous lines into thesame individual. Administration “in combination” further includes theseparate administration of one of the compounds or agents given first,followed by the second.

The Therapeutics of the invention may be administered alone or incombination with other therapeutic agents. Therapeutic agents that maybe administered in combination with the Therapeutics of the invention,include but not limited to, chemotherapeutic agents, antibiotics,steroidal and non-steroidal anti-inflammatories, conventionalimmunotherapeutic agents, and/or therapeutic treatments described below.Combinations may be administered either concomitantly, e.g., as anadmixture, separately but simultaneously or concurrently; orsequentially. This includes presentations in which the combined agentsare administered together as a therapeutic mixture, and also proceduresin which the combined agents are administered separately butsimultaneously, e.g., as through separate intravenous lines into thesame individual. Administration “in combination” further includes theseparate administration of one of the compounds or agents given first,followed by the second.

In one embodiment, the Therapeutics of the invention are administered incombination with an anticoagulant. Anticoagulants that may beadministered with the compositions of the invention include, but are notlimited to, heparin, low molecular weight heparin, warfarin sodium(e.g., COUMADIN®), dicumarol, 4-hydroxycoumarin, anisindione (e.g.,MIRADON™), acenocoumarol (e.g., nicoumalone, SINTHROME™),indan-1,3-dione, phenprocoumon (e.g., MARCUMAR™), ethyl biscoumacetate(e.g., TROMEXAN™), and aspirin. In a specific embodiment, compositionsof the invention are administered in combination with heparin and/orwarfarin. In another specific embodiment, compositions of the inventionare administered in combination with warfarin. In another specificembodiment, compositions of the invention are administered incombination with warfarin and aspirin. In another specific embodiment,compositions of the invention are administered in combination withheparin. In another specific embodiment, compositions of the inventionare administered in combination with heparin and aspirin.

In another embodiment, the Therapeutics of the invention areadministered in combination with thrombolytic drugs. Thrombolytic drugsthat may be administered with the compositions of the invention include,but are not limited to, plasminogen, lys-plasminogen,alpha2-antiplasmin, streptokinae (e.g., KABIKINASE™), antiresplace(e.g., EMINASE™), tissue plasminogen activator (t-PA, altevase,ACTIVASE™), urokinase (e.g., ABBOKINASE™), sauruplase, (Prourokinase,single chain urokinase), and aminocaproic acid (e.g., AMICAR™). In aspecific embodiment, compositions of the invention are administered incombination with tissue plasminogen activator and aspirin.

In another embodiment, the Therapeutics of the invention areadministered in combination with antiplatelet drugs. Antiplatelet drugsthat may be administered with the compositions of the invention include,but are not limited to, aspirin, dipyridamole (e.g., PERSANTINE™), andticlopidine (e.g., TICLID™).

In specific embodiments, the use of anti-coagulants, thrombolytic and/orantiplatelet drugs in combination with Therapeutics of the invention iscontemplated for the detection, prevention, diagnosis, prognostication,treatment, and/or amelioration of thrombosis, arterial thrombosis,venous thrombosis, thromboembolism, pulmonary embolism, atherosclerosis,myocardial infarction, transient ischemic attack, unstable angina. Inspecific embodiments, the use of anticoagulants, thrombolytic drugsand/or antiplatelet drugs in combination with Therapeutics of theinvention is contemplated for the prevention of occulsion of saphenousgrafts, for reducing the risk of periprocedural thrombosis as mightaccompany angioplasty procedures, for reducing the risk of stroke inpatients with atrial fibrillation including nonrheumatic atrialfibrillation, for reducing the risk of embolism associated withmechanical heart valves and or mitral valves disease. Other uses for thetherapeutics of the invention, alone or in combination withantiplatelet, anticoagulant, and/or thrombolytic drugs, include, but arenot limited to, the prevention of occlusions in extracorporeal devices(e.g., intravascular canulas, vascular access shunts in hemodialysispatients, hemodialysis machines, and cardiopulmonary bypass machines).

In certain embodiments, Therapeutics of the invention are administeredin combination with antiretroviral agents, nucleoside/nucleotide reversetranscriptase inhibitors (NRTIs), non-nucleoside reverse transcriptaseinhibitors (NNRTIs), and/or protease inhibitors (PIs). NRTIs that may beadministered in combination with the Therapeutics of the invention,include, but are not limited to, RETROVIR™ (zidovudine/AZT), VIDEX™(didanosine/ddI), HIVID™ (zalcitabine/ddC), ZERIT™ (stavudine/d4T),EPIVIR™ (lamivudine/3TC), and COMBIVIR™ (zidovudine/lamivudine). NNRTIsthat may be administered in combination with the Therapeutics of theinvention, include, but are not limited to, VIRAMUNE™ (nevirapine),RESCRIPTOR™ (delavirdine), and SUSTIVA™ (efavirenz). Protease inhibitorsthat may be administered in combination with the Therapeutics of theinvention, include, but are not limited to, CRIXIVAN™ (indinavir),NORVIR™ (ritonavir), INVIRASE™ (saquinavir), and VIRACEPT™ (nelfinavir).In a specific embodiment, antiretroviral agents, nucleoside reversetranscriptase inhibitors, non-nucleoside reverse transcriptaseinhibitors, and/or protease inhibitors may be used in any combinationwith Therapeutics of the invention to treat AIDS and/or to prevent ortreat HIV infection.

Additional NRTIs include LODENOSINE™ (F-ddA; an acid-stable adenosineNRTI; Triangle/Abbott; COVIRACL™ (emtricitabine/FTC; structurallyrelated to lamivudine (3TC) but with 3- to 10-fold greater activity invitro; Triangle/Abbott); dOTC (BCH-10652, also structurally related tolamivudine but retains activity against a substantial proportion oflamivudine-resistant isolates; Biochem Pharma); Adefovir (refusedapproval for anti-HIV therapy by FDA; Gilead Sciences); PREVEON®(Adefovir Dipivoxil, the active prodrug of adefovir; its active form isPMEA-pp); TENOFOVIR™ (bis-POC PMPA, a PMPA prodrug; Gilead); DAPD/DXG(active metabolite of DAPD; Triangle/Abbott); D-D4FC (related to 3TC,with activity against AZT/3TC-resistant virus); GW420867X (GlaxoWellcome); ZIAGEN™ (abacavir/159U89; Glaxo Wellcome Inc.); CS-87(3′azido-2′,3′-dideoxyuridine; WO 99/66936); and S-acyl-2-thioethyl(SATE)-bearing prodrug forms of β-L-FD4C and β-L-FddC (WO 98/17281).

Additional NNRTIs include COACTINON™ (Emivirine/MKC-442, potent NNRTI ofthe HEPT class; Triangle/Abbott); CAPRAVIRINE™ (AG-1549/S-1153, a nextgeneration NNRTI with activity against viruses containing the K103Nmutation; Agouron); PNU-142721 (has 20- to 50-fold greater activity thanits predecessor delavirdine and is active against K103N mutants;Pharmacia & Upjohn); DPC-961 and DPC-963 (second-generation derivativesof efavirenz, designed to be active against viruses with the K103Nmutation; DuPont); GW-420867X (has 25-fold greater activity than HBY097and is active against K103N mutants; Glaxo Wellcome); CALANOLIDE A(naturally occurring agent from the latex tree; active against virusescontaining either or both the Y181C and K103N mutations); and Propolis(WO 99/49830).

Additional protease inhibitors include LOPINAVIR™ (ABT378/r; AbbottLaboratories); BMS-232632 (an azapeptide; Bristol-Myres Squibb);TIPRANAVIR™ (PNU-140690, a non-peptic dihydropyrone; Pharmacia &Upjohn); PD-178390 (a nonpeptidic dihydropyrone; Parke-Davis); BMS232632 (an azapeptide; Bristol-Myers Squibb); IL-756,423 (an indinaviranalog; Merck); DMP-450 (a cyclic urea compound; Avid & DuPont); AG-1776(a peptidomimetic with in vitro activity against proteaseinhibitor-resistant viruses; Agouron); VX-175/GW-433908 (phosphateprodrug of amprenavir; Vertex & Glaxo Welcome); CGP61755 (Ciba); andAGENERASE™ (amprenavir; Glaxo Wellcome Inc.).

Additional antiretroviral agents include fusion inhibitors/gp41 binders.Fusion inhibitors/gp41 binders include T-20 (a peptide from residues643-678 of the HIV gp41 transmembrane protein ectodomain which binds togp41 in its resting state and prevents transformation to the fusogenicstate; Trimeris) and T-1249 (a second-generation fusion inhibitor;Trimeris).

Additional antiretroviral agents include fusion inhibitors/chemokinereceptor antagonists. Fusion inhibitors/chemokine receptor antagonistsinclude CXCR4 antagonists such as AMD 3100 (a bicyclam), SDF-1 and itsanalogs, and ALX40-4C (a cationic peptide), T22 (an 18 amino acidpeptide; Trimeris) and the T22 analogs T134 and T140; CCR5 antagonistssuch as RANTES (9-68), AOP-RANTES, NNY-RANTES, and TAK-779; andCCR5/CXCR4 antagonists such as NSC 651016 (a distamycin analog). Alsoincluded are CCR2B, CCR3, and CCR6 antagonists. Chemokine recpetoragonists such as RANTES, SDF-1, MIP-1α, MIP-1β, etc., may also inhibitfusion.

Additional antiretroviral agents include integrase inhibitors. Integraseinhibitors include dicaffeoylquinic (DFQA) acids; L-chicoric acid (adicaffeoyltartaric (DCTA) acid); quinalizarin (QLC) and relatedanthraquinones; ZINTEVIR™ (AR 177, an oligonucleotide that probably actsat cell surface rather than being a true integrase inhibitor; Arondex);and naphthols such as those disclosed in WO 98/50347.

Additional antiretroviral agents include hydroxyurea-like compunds suchas BCX-34 (a purine nucleoside phosphorylase inhibitor; Biocryst);ribonucleotide reductase inhibitors such as DIDOX™ (Molecules forHealth); inosine monophosphate dehydrogenase (IMPDH) inhibitors sucha asVX-497 (Vertex); and mycopholic acids such as CellCept (mycophenolatemofetil; Roche).

Additional antiretroviral agents include inhibitors of viral integrase,inhibitors of viral genome nuclear translocation such as arylenebis(methylketone) compounds; inhibitors of HIV entry such as AOP-RANTES,NNY-RANTES, RANTES-lgG fusion protein, soluble complexes of RANTES andglycosaminoglycans (GAG), and AMD-3100; nucleocapsid zinc fingerinhibitors such as dithiane compounds; targets of HIV Tat and Rev; andpharmacoenhancers such as ABT-378.

Other antiretroviral therapies and adjunct therapies include cytokinesand lymphokines such as MIP-1α, MIP-1β, SDF-1α, IL-2, PROLEUKIN™(aldesleukin/L2-7001; Chiron), IL-4, IL-10, IL-12, and IL-13;interferons such as IFN-α2a; antagonists of TNFs, NFκB, GM-CSF, M-CSF,and IL-10; agents that modulate immune activation such as cyclosporinand prednisone; vaccines such as Remune™ (HIV Immunogen), APL 400-003(Apollon), recombinant gp120 and fragments, bivalent (B/E) recombinantenvelope glycoprotein, rgp120CM235, MN rgp120, SF-2 rgp120,gp120/soluble CD4 complex, Delta JR-FL protein, branched syntheticpeptide derived from discontinuous gp120 C3/C4 domain, fusion-competentimmunogens, and Gag, Pol, Nef, and Tat vaccines; gene-based therapiessuch as genetic suppressor elements (GSEs; WO 98/54366), and intrakines(genetically modified CC chemokines targetted to the ER to block surfaceexpression of newly synthesized CCR5 (Yang et al., PNAS 94:11567-72(1997); Chen et al., Nat. Med. 3:1110-16 (1997)); antibodies such as theanti-CXCR4 antibody 12G5, the anti-CCR5 antibodies 2D7, 5C7, PA8, PA9,PA10, PA11, PA12, and PA14, the anti-CD4 antibodies Q4120 and RPA-T4,the anti-CCR3 antibody 7B11, the anti-gp120 antibodies 17b, 48d,447-52D, 257-D, 268-D and 50.1, anti-Tat antibodies, anti-TNF-αantibodies, and monoclonal antibody 33A; aryl hydrocarbon (AH) receptoragonists and antagonists such as TCDD, 3,3′,4,4′,5-pentachlorobiphenyl,3,3′,4,4′-tetrachlorobiphenyl, and α-naphthoflavone (WO 98/30213); andantioxidants such as γ-L-glutamyl-L-cysteine ethyl ester (γ-GCE; WO99/56764).

In a further embodiment, the Therapeutics of the invention areadministered in combination with an antiviral agent. Antiviral agentsthat may be administered with the Therapeutics of the invention include,but are not limited to, acyclovir, ribavirin, amantadine, andremantidine.

In other embodiments, Therapeutics of the invention may be administeredin combination with anti-opportunistic infection agents.Anti-opportunistic agents that may be administered in combination withthe Therapeutics of the invention, include, but are not limited to,TRIMETHOPRIM-SULFAMETHOXAZOLE™, DAPSONE™, PENTAMIDINE™, ATOVAQUONE™,ISONIAZID™, RIFAMPIN™, PYRAZINAMIDE™, ETHAMBUTOL™, RIFABUTIN™,CLARITHROMYCIN™, AZITHROMYCIN™, GANCICLOVIR™, FOSCARNET™, CIDOFOVIR™,FLUCONAZOLE™, ITRACONAZOLE™, KETOCONAZOLE™, ACYCLOVIR™, FAMCICOLVIR™,PYRIMETRAMINE™, LEUCOVORIN™, NEUPOGEN™ (filgrastim/G-CSF), and LEUKINE™(sargramostim/GM-CSF). In a specific embodiment, Therapeutics of theinvention are used in any combination withTRIMETHOPRIM-SULFAMETHOXAZOLE™, DAPSONE™, PENTAMIDINE™, and/orATOVAQUONE™ to prophylactically treat or prevent an opportunisticPneumocystis carinii pneumonia infection. In another specificembodiment, Therapeutics of the invention are used in any combinationwith ISONIAZID™, RIFAMPIN™, PYRAZINAMIDE™, and/or ETHAMBUTOL™ toprophylactically treat or prevent an opportunistic Mycobacterium aviumcomplex infection. In another specific embodiment, Therapeutics of theinvention are used in any combination with RIFABUTIN™, CLARITHROMYCIN™,and/or AZITHROMYCIN™ to prophylactically treat or prevent anopportunistic Mycobacterium tuberculosis infection. In another specificembodiment, Therapeutics of the invention are used in any combinationwith GANCICLOVIR™, FOSCARNET™, and/or CIDOFOVIR™ to prophylacticallytreat or prevent an opportunistic cytomegalovirus infection. In anotherspecific embodiment, Therapeutics of the invention are used in anycombination with FLUCONAZOLE™, ITRACONAZOLE™, and/or KETOCONAZOLE™ toprophylactically treat or prevent an opportunistic fungal infection. Inanother specific embodiment, Therapeutics of the invention are used inany combination with ACYCLOVIR™ and/or FAMCICOLVIR™ to prophylacticallytreat or prevent an opportunistic herpes simplex virus type I and/ortype II infection. In another specific embodiment, Therapeutics of theinvention are used in any combination with PYRIMETHAMINE™ and/orLEUCOVORIN™ to prophylactically treat or prevent an opportunisticToxoplasma gondii infection. In another specific embodiment,Therapeutics of the invention are used in any combination withLEUCOVORIN™ and/or NEUPOGEN™ to prophylactically treat or prevent anopportunistic bacterial infection.

In a further embodiment, the Therapeutics of the invention areadministered in combination with an antibiotic agent. Antibiotic agentsthat may be administered with the Therapeutics of the invention include,but are not limited to, amoxicillin, beta-lactamases, aminoglycosides,beta-lactam (glycopeptide), beta-lactamases, Clindamycin,chloramphenicol, cephalosporins, ciprofloxacin, erythromycin,fluoroquinolones, macrolides, metronidazole, penicillins, quinolones,rapamycin, rifampin, streptomycin, sulfonamide, tetracyclines,trimethoprim, trimethoprim-sulfamethoxazole, and vancomycin.

In other embodiments, the Therapeutics of the invention are administeredin combination with immunestimulants. Immunostimulants that may beadministered in combination with the Therapeutics of the inventioninclude, but are not limited to, levamisole (e.g., ERGAMISOL™),isoprinosine (e.g. INOSIPLEX™), interferons (e.g. interferon alpha), andinterleukins (e.g., IL-2).

In other embodiments, Therapeutics of the invention are administered incombination with immunosuppressive agents. Immunosuppressive agents thatmay be administered in combination with the Therapeutics of theinvention include, but are not limited to, steroids, cyclosporine,cyclosporine analogs, cyclophosphamide methylprednisone, prednisone,azathioprine, FK-506, 15-deoxyspergualin, and other immunosuppressiveagents that act by suppressing the function of responding T cells. Otherimmunosuppressive agents that may be administered in combination withthe Therapeutics of the invention include, but are not limited to,prednisolone, methotrexate, thalidomide, methoxsalen, rapamycin,leflunomide, mizoribine (BREDININ™), brequinar, deoxyspergualin, andazaspirane (SKF 105685), ORTHOCLONE OKT® 3 (muromonab-CD3), SANDIMMUNE™,NEORAL™, SANGDYA™ (cyclosporine), PROGRAF® (FK506, tacrolimus),CELLCEPT® (mycophenolate motefil, of which the active metabolite ismycophenolic acid), IMURAN™ (azathioprine), glucocorticosteroids,adrenocortical steroids such as DELTASONE™ (prednisone) and HYDELTRASOL™(prednisolone), FOLEX™ and MEXATE™ (methotrxate), OXSORALEN-ULTRA™(methoxsalen) and RAPAMUNE™ (sirolimus). In a specific embodiment,immunosuppressants may be used to prevent rejection of organ or bonemarrow transplantation.

In an additional embodiment, Therapeutics of the invention areadministered alone or in combination with one or more intravenous immuneglobulin preparations. Intravenous immune globulin preparations that maybe administered with the Therapeutics of the invention include, but notlimited to, GAMMAR™, IVEEGAM™, SANDOGLOBULIN™, GAMMAGARD S/D™, ATGAM™(antithymocyte glubulin), and GAMIMUNE™. In a specific embodiment,Therapeutics of the invention are administered in combination withintravenous immune globulin preparations in transplantation therapy(e.g., bone marrow transplant).

In certain embodiments, the Therapeutics of the invention areadministered alone or in combination with an anti-inflammatory agent.Anti-inflammatory agents that may be administered with the Therapeuticsof the invention include, but are not limited to, corticosteroids (e.g.betamethasone, budesonide, cortisone, dexamethasone, hydrocortisone,methylprednisolone, prednisolone, prednisone, and triamcinolone),nonsteroidal anti-inflammatory drugs (e.g., diclofenac, diflunisal,etodolac, fenoprofen, floctafenine, flurbiprofen, ibuprofen,indomethacin, ketoprofen, meclofenamate, mefenamic acid, meloxicam,nabumetone, naproxen, oxaprozin, phenylbutazone, piroxicam, sulindac,tenoxicam, tiaprofenic acid, and tolmetin), as well as antihistamines,aminoarylcarboxylic acid derivatives, arylacetic acid derivatives,arylbutyric acid derivatives, arylcarboxylic acids, arylpropionic acidderivatives, pyrazoles, pyrazolones, salicylic acid derivatives,thiazinecarboxamides, e-acetamidocaproic acid, S-adenosylmethionine,3-amino-4-hydroxybutyric acid, amixetrine, bendazac, benzydamine,bucolome, difenpiramide, ditazol, emorfazone, guaiazulene, nabumetone,nimesulide, orgotein, oxaceprol, paranyline, perisoxal, pifoxime,proquazone, proxazole, and tenidap.

In an additional embodiment, the compositions of the invention areadministered alone or in combination with an anti-angiogenic agent.Anti-angiogenic agents that may be administered with the compositions ofthe invention include, but are not limited to, Angiostatin (Entremed,Rockville, Md.), Troponin-1 (Boston Life Sciences, Boston, Mass.),anti-Invasive Factor, retinoic acid and derivatives thereof, paclitaxel(Taxol), Suramin, Tissue Inhibitor of Metalloproteinase-1, TissueInhibitor of Metalloproteinase-2, VEGI, Plasminogen ActivatorInhibitor-1, Plasminogen Activator Inhibitor-2, and various forms of thelighter “d group” transition metals.

Lighter “d group” transition metals include, for example, vanadium,molybdenum, tungsten, titanium, niobium, and tantalum species. Suchtransition metal species may form transition metal complexes. Suitablecomplexes of the above-mentioned transition metal species include oxotransition metal complexes.

Representative examples of vanadium complexes include oxo vanadiumcomplexes such as vanadate and vanadyl complexes. Suitable vanadatecomplexes include metavanadate and orthovanadate complexes such as, forexample, ammonium metavanadate, sodium metavanadate, and sodiumorthovanadate. Suitable vanadyl complexes include, for example, vanadylacetylacetonate and vanadyl sulfate including vanadyl sulfate hydratessuch as vanadyl sulfate mono- and trihydrates.

Representative examples of tungsten and molybdenum complexes alsoinclude oxo complexes. Suitable oxo tungsten complexes include tungstateand tungsten oxide complexes. Suitable tungstate complexes includeammonium tungstate, calcium tungstate, sodium tungstate dihydrate, andtungstic acid. Suitable tungsten oxides include tungsten (IV) oxide andtungsten (VI) oxide. Suitable oxo molybdenum complexes includemolybdate, molybdenum oxide, and molybdenyl complexes. Suitablemolybdate complexes include ammonium molybdate and its hydrates, sodiummolybdate and its hydrates, and potassium molybdate and its hydrates.Suitable molybdenum oxides include molybdenum (VI) oxide, molybdenum(VI) oxide, and molybdic acid. Suitable molybdenyl complexes include,for example, molybdenyl acetylacetonate. Other suitable tungsten andmolybdenum complexes include hydroxo derivatives derived from, forexample, glycerol, tartaric acid, and sugars.

A wide variety of other anti-angiogenic factors may also be utilizedwithin the context of the present invention. Representative examplesinclude, but are not limited to, platelet factor 4; protamine sulphate;sulphated chitin derivatives (prepared from queen crab shells), (Murataet al., Cancer Res. 51:22-26, (1991)); Sulphated PolysaccharidePeptidoglycan Complex (SP-PG) (the function of this compound may beenhanced by the presence of steroids such as estrogen, and tamoxifencitrate); Staurosporine; modulators of matrix metabolism, including forexample, proline analogs, cishydroxyproline, d,L-3,4-dehydroproline,Thiaproline, alpha,alpha-dipyridyl, aminopropionitrile fumarate;4-propyl-5-(4-pyridinyl)-2(3H)-oxazolone; Methotrexate; Mitoxantrone;Heparin; Interferons; 2 Macroglobulin-serum; ChIMP-3 (Pavloff et al., J.Bio. Chem. 267:17321-17326, (1992)); Chymostatin (Tomkinson et al.,Biochem J. 286:475-480, (1992)); Cyclodextrin Tetradecasulfate;Eponemycin; Camptothecin; Fumagillin (Ingber et al., Nature 348:555-557,(1990)); Gold Sodium Thiomalate (“GST”; Matsubara and Ziff, J. Clin.Invest. 79:1440-1446, (1987)); anticollagenase-serum; alpha2-antiplasmin(Holmes et al., J. Biol. Chem. 262(4):1659-1664, (1987)); Bisantrene(National Cancer Institute); Lobenzarit disodium(N-(2)-carboxyphenyl-4-chloroanthronilic acid disodium or “CCA”;(Takeuchi et al., Agents Actions 36:312-316, (1992)); andmetalloproteinase inhibitors such as BB94.

Additional anti-angiogenic factors that may also be utilized within thecontext of the present invention include Thalidomide, (Celgene, Warren,N.J.); Angiostatic steroid; AGM-1470 (H. Brem and J. Folkman J Pediatr.Surg. 28:445-51 (1993)); an integrin alpha v beta 3 antagonist (C.Storgard et al., J Clin. Invest. 103:47-54 (1999));carboxynaminolmidazole; Carboxyamidotriazole (CAI) (National CancerInstitute, Bethesda, Md.); Conbretastatin A-4 (CA4P) (OXiGENE, Boston,Mass.); Squalamine (Magainin Pharmaceuticals, Plymouth Meeting, Pa.);TNP-470, (Tap Pharmaceuticals, Deerfield, Ill.); ZD-0101 AstraZeneca(London, UK); APRA (CT2584); Benefin, Byrostatin-1 (SC339555); CGP-41251(PKC 412); CM101; Dexrazoxane (ICRF187); DMXAA; Endostatin;Flavopridiol; Genestein; GTE; ImmTher; Iressa (ZD1839); Octreotide(Somatostatin); Panretin; Penacillamine; Photopoint; PI-88; Prinomastat(AG-3340) Purlytin; Suradista (FCE26644); Tamoxifen (Nolvadex);Tazarotene; Tetrathiomolybdate; Xeloda (Capecitabine); and5-Fluorouracil.

Anti-angiogenic agents that may be administed in combination with thecompounds of the invention may work through a variety of mechanismsincluding, but not limited to, inhibiting proteolysis of theextracellular matrix, blocking the function of endothelialcell-extracellular matrix adhesion molecules, by antagonizing thefunction of angiogenesis inducers such as growth factors, and inhibitingintegrin receptors expressed on proliferating endothelial cells.Examples of anti-angiogenic inhibitors that interfere with extracellularmatrix proteolysis and which may be administered in combination with thecompositons of the invention include, but are not lmited to, AG-3340(Agouron, La Jolla, Calif.), BAY-12-9566 (Bayer, West Haven, Conn.),BMS-275291 (Bristol Myers Squibb, Princeton, N.J.), CGS-27032A(Novartis, East Hanover, N.J.), Marimastat (British Biotech, Oxford,UK), and Metastat (Aeterna, St-Foy, Quebec). Examples of anti-angiogenicinhibitors that act by blocking the function of endothelialcell-extracellular matrix adhesion molecules and which may beadministered in combination with the compositons of the inventioninclude, but are not Imited to, EMD-121974 (Merck KcgaA Darmstadt,Germany) and Vitaxin (Ixsys, La Jolla, Calif./Medimmune, Gaithersburg,Md.). Examples of anti-angiogenic agents that act by directlyantagonizing or inhibiting angiogenesis inducers and which may beadministered in combination with the compositons of the inventioninclude, but are not Imited to, Angiozyme (Ribozyme, Boulder, Colo.),Anti-VEGF antibody (Genentech, S. San Francisco, Calif.),PTK-787/ZK-225846 (Novartis, Basel, Switzerland), SU-101 (Sugen, S. SanFrancisco, Calif.), SU-5416 (Sugen/Pharmacia Upjohn, Bridgewater, N.J.),and SU-6668 (Sugen). Other anti-angiogenic agents act to indirectlyinhibit angiogenesis. Examples of indirect inhibitors of angiogenesiswhich may be administered in combination with the compositons of theinvention include, but are not limited to, IM-862 (Cytran, Kirkland,Wash.), Interferon-alpha, IL-12 (Roche, Nutley, N.J.), and Pentosanpolysulfate (Georgetown University, Washington, D.C.).

In particular embodiments, the use of compositions of the invention incombination with anti-angiogenic agents is contemplated for thetreatment, prevention, and/or amelioration of an autoimmune disease,such as for example, an autoimmune disease described herein.

In a particular embodiment, the use of compositions of the invention incombination with anti-angiogenic agents is contemplated for thetreatment, prevention, and/or amelioration of arthritis. In a moreparticular embodiment, the use of compositions of the invention incombination with anti-angiogenic agents is contemplated for thetreatment, prevention, and/or amelioration of rheumatoid arthritis.

In another embodiment, the polynucleotides encoding a polypeptide of thepresent invention are administered in combination with an angiogenicprotein, or polynucleotides encoding an angiogenic protein. Examples ofangiogenic proteins that may be administered with the compositions ofthe invention include, but are not limited to, acidic and basicfibroblast growth factors, VEGF-1, VEGF-2, VEGF-3, epidermal growthfactor alpha and beta, platelet-derived endothelial cell growth factor,platelet-derived growth factor, tumor necrosis factor alpha, hepatocytegrowth factor, insulin-like growth factor, colony stimulating factor,macrophage colony stimulating factor, granulocyte/macrophage colonystimulating factor, and nitric oxide synthase.

In additional embodiments, compositions of the invention areadministered in combination with a chemotherapeutic agent.Chemotherapeutic agents that may be administered with the Therapeuticsof the invention include, but are not limited to alkylating agents suchas nitrogen mustards (for example, Mechlorethamine, cyclophosphamide,Cyclophosphamide Ifosfamide, Melphalan (L-sarcolysin), andChlorambucil), ethylenimines and methylmelamines (for example,Hexamethylmelamine and Thiotepa), alkyl sulfonates (for example,Busulfan), nitrosoureas (for example, Cammustine (BCNU), Lomustine(CCNU), Semustine (methyl-CCNU), and Streptozocin (streptozotocin)),triazenes (for example, Dacarbazine (DTIC;dimethyltriazenoimidazolecarboxamide)), folic acid analogs (for example,Methotrexate (amethopterin)), pyrimidine analogs (for example,Fluorouacil (5-fluorouracil; 5-FU), Floxuridine (fluorodeoxyuridine;FudR), and Cytarabine (cytosine arabinoside)), purine analogs andrelated inhibitors (for example, Mercaptopurine (6-mercaptopurine;6-MP), Thioguanine (6-thioguanine; TG), and Pentostatin(2′-deoxycoformycin)), vinca alkaloids (for example, Vinblastine (VLB,vinblastine sulfate)) and Vincristine (vincristine sulfate)),epipodophyllotoxins (for example, Etoposide and Teniposide), antibiotics(for example, Dactinomycin (actinomycin D), Daunorubicin (daunomycin;rubidomycin), Doxorubicin, Bleomycin, Plicamycin (mithramycin), andMitomycin (mitomycin C), enzymes (for example, L-Asparaginase),biological response modifiers (for example, Interferon-alpha andinterferon-alpha-2b), platinum coordination compounds (for example,Cisplatin (cis-DDP) and Carboplatin), anthracenedione (Mitoxantrone),substituted ureas (for example, Hydroxyurea), methylhydrazinederivatives (for example, Procarbazine (N-methylhydrazine; MIH),adrenocorticosteroids (for example, Prednisone), progestins (forexample, Hydroxyprogesterone caproate, Medroxyprogesterone,Medroxyprogesterone acetate, and Megestrol acetate), estrogens (forexample, Diethylstilbestrol (DES), Diethylstilbestrol diphosphate,Estradiol, and Ethinyl estradiol), antiestrogens (for example,Tamoxifen), androgens (Testosterone proprionate, and Fluoxymesterone),antiandrogens (for example, Flutamide), gonadotropin-releasing horomoneanalogs (for example, Leuprolide), other hormones and hormone analogs(for example, methyltestosterone, estramustine, estramustine phosphatesodium, chlorotrianisene, and testolactone), and others (for example,dicarbazine, glutamic acid, and mitotane).

In one embodiment, the compositions of the invention are administered incombination with one or more of the following drugs: infliximab (alsoknown as Remicade™ Centocor, Inc.), Trocade (Roche, RO-32-3555),Leflunomide (also known as Arava™ from Hoechst Marion Roussel), Kineret™(an IL-1 Receptor antagonist also known as Anakinra from Amgen, Inc.)

In a specific embodiment, compositions of the invention are administeredin combination with CHOP (cyclophosphamide, doxorubicin, vincristine,and prednisone) or combination of one or more of the components of CHOP.In one embodiment, the compositions of the invention are administered incombination with anti-CD20 antibodies, human monoclonal anti-CD20antibodies. In another embodiment, the compositions of the invention areadministered in combination with anti-CD20 antibodies and CHOP, oranti-CD20 antibodies and any combination of one or more of thecomponents of CHOP, particularly cyclophosphamide and/or prednisone. Ina specific embodiment, compositions of the invention are administered incombination with Rituximab. In a further embodiment, compositions of theinvention are administered with Rituximab and CHOP, or Rituximab and anycombination of one or more of the components of CHOP, particularlycyclophosphamide and/or prednisone. In a specific embodiment,compositions of the invention are administered in combination withtositumomab. In a further embodiment, compositions of the invention areadministered with tositumomab and CHOP, or tositumomab and anycombination of one or more of the components of CHOP, particularlycyclophosphamide and/or prednisone. The anti-CD20 antibodies mayoptionally be associated with radioisotopes, toxins or cytotoxicprodrugs.

In another specific embodiment, the compositions of the invention areadministered in combination Zevalin™. In a further embodiment,compositions of the invention are administered with Zevalin™ and CHOP,or Zevalin™ and any combination of one or more of the components ofCHOP, particularly cyclophosphamide and/or prednisone. Zevalin™ may beassociated with one or more radisotopes. Particularly preferred isotopesare ⁹⁰Y and ¹¹¹In.

In an additional embodiment, the Therapeutics of the invention areadministered in combination with cytokines. Cytokines that may beadministered with the Therapeutics of the invention include, but are notlimited to, IL2, IL3, IL4, IL5, IL6, IL7, IL10, IL12, IL13, IL15,anti-CD40, CD40L, IFN-gamma and TNF-alpha. In another embodiment,Therapeutics of the invention may be administered with any interleukin,including, but not limited to, IL-1alpha, IL-1beta, IL-2, IL-3, IL-4,IL-5, IL-6, IL-7, IL-8, IL-9, IL-10, IL-1, IL-12, IL-13, IL-14, IL-15,IL-16, IL-17, IL-18, IL-19, IL-20, and IL-21.

In one embodiment, the Therapeutics of the invention are administered incombination with members of the TNF family. TNF, TNF-related or TNF-likemolecules that may be administered with the Therapeutics of theinvention include, but are not limited to, soluble forms of TNF-alpha,lymphotoxin-alpha (LT-alpha, also known as TNF-beta), LT-beta (found incomplex beterotrimer LT-alpha2-beta), OPGL, FasL, CD27L, CD30L, CD40L,4-IBBL, DcR3, OX40L, TNF-gamma (International Publication No. WO96/14328), AIM-I (International Publication No. WO 97/33899),endokine-alpha (International Publication No. WO 98/07880), OPG, andneutrokine-alpha (International Publication No. WO 98/18921, OX40, andnerve growth factor (NGF), and soluble forms of Fas, CD30, CD27, CD40and 4-IBB, TR2 (International Publication No. WO 96/34095), DR3(International Publication No. WO 97/33904), DR4 (InternationalPublication No. WO 98/32856), TR5 (International Publication No. WO98/30693), TRANK, TR9 (International Publication No. WO 98/56892), TR10(International Publication No. WO 98/54202), 312C2 (InternationalPublication No. WO 98/06842), and TR12, and soluble forms CD154, CD70,and CD153.

In an additional embodiment, the Therapeutics of the invention areadministered in combination with angiogenic proteins. Angiogenicproteins that may be administered with the Therapeutics of the inventioninclude, but are not limited to, Glioma Derived Growth Factor (GDGF), asdisclosed in European Patent Number EP-399816; Platelet Derived GrowthFactor-A (PDGF-A), as disclosed in European Patent Number EP-682110;Platelet Derived Growth Factor-B (PDGF-B), as disclosed in EuropeanPatent Number EP-282317; Placental Growth Factor (PIGF), as disclosed inInternational Publication Number WO 92/06194; Placental Growth Factor-2(PIGF-2), as disclosed in Hauser et al., Growth Factors, 4:259-268(1993); Vascular Endothelial Growth Factor (VEGF), as disclosed inInternational Publication Number WO 90/13649; Vascular EndothelialGrowth Factor-A (VEGF-A), as disclosed in European Patent NumberEP-506477; Vascular Endothelial Growth Factor-2 (VEGF-2), as disclosedin International Publication Number WO 96/39515; Vascular EndothelialGrowth Factor B (VEGF-3); Vascular Endothelial Growth Factor B-186(VEGF-B186), as disclosed in International Publication Number WO96/26736; Vascular Endothelial Growth Factor-D (VEGF-D), as disclosed inInternational Publication Number WO 98/02543; Vascular EndothelialGrowth Factor-D (VEGF-D), as disclosed in International PublicationNumber WO 98/07832; and Vascular Endothelial Growth Factor-E (VEGF-E),as disclosed in German Patent Number DE19639601. The above mentionedreferences are herein incorporated by reference in their entireties.

In an additional embodiment, the Therapeutics of the invention areadministered in combination with Fibroblast Growth Factors. FibroblastGrowth Factors that may be administered with the Therapeutics of theinvention include, but are not limited to, FGF-1, FGF-2, FGF-3, FGF-4,FGF-5, FGF-6, FGF-7, FGF-8, FGF-9, FGF-10, FGF-11, FGF-12, FGF-13,FGF-14, and FGF-15.

In an additional embodiment, the Therapeutics of the invention areadministered in combination with hematopoietic growth factors.Hematopoietic growth factors that may be administered with theTherapeutics of the invention include, but are not limited to,granulocyte macrophage colony stimulating factor (GM-CSF) (sargramostim,LEUKINE™, PROKINE™), granulocyte colony stimulating factor (G-CSF)(filgrastim, NEUPOGEN™), macrophage colony stimulating factor (M-CSF,CSF-1) erythropoietin (epoetin alfa, EPOGEN™, PROCRI™), stem cell factor(SCF, c-kit ligand, steel factor), megakaryocyte colony stimulatingfactor, PIXY321 (a GMCSF/IL-3 fusion protein), interleukins, especiallyany one or more of IL-1 through IL-12, interferon-gamma, orthrombopoietin.

In certain embodiments, Therapeutics of the present invention areadministered in combination with adrenergic blockers, such as, forexample, acebutolol, atenolol, betaxolol, bisoprolol, carteolol,labetalol, metoprolol, nadolol, oxprenolol, penbutolol, pindolol,propranolol, sotalol, and timolol.

In another embodiment, the Therapeutics of the invention areadministered in combination with an antiarrhythmic drug (e.g.,adenosine, amidoarone, bretylium, digitalis, digoxin, digitoxin,diliazem, disopyramide, esmolol, flecainide, lidocaine, mexiletine,moricizine, phenyloin, procainamide, N-acetyl procainamide, propafenone,propranolol, quinidine, sotalol, tocainide, and verapamil).

In another embodiment, the Therapeutics of the invention areadministered in combination with diuretic agents, such as carbonicanhydrase-inhibiting agents (e.g., acetazolamide, dichlorphenamide, andmethazolamide), osmotic diuretics (e.g., glycerin, isosorbide, mannitol,and urea), diuretics that inhibit Na⁺—K⁺-2Cl⁻ symport (e.g., furosemide,bumetanide, azosemide, piretanide, tripamide, ethacrynic acid,muzolimine, and torsemide), thiazide and thiazide-like diuretics (e.g.,bendroflumethiazide, benzthiazide, chlorothiazide, hydrochlorothiazide,hydroflumethiazide, methyclothiazide, polythiazide, trichornethiazide,chlorthalidone, indapamide, metolazone, and quinethazone), potassiumsparing diuretics (e.g., amiloride and triamterene), andmineralcorticoid receptor antagonists (e.g., spironolactone, canrenone,and potassium canrenoate).

In one embodiment, the Therapeutics of the invention are administered incombination with treatments for endocrine and/or hormone imbalancedisorders. Treatments for endocrine and/or hormone imbalance disordersinclude, but are not limited to, ¹²⁷I, radioactive isotopes of iodinesuch as ¹³¹I and ¹²³I; recombinant growth hormone, such as HUMATROPE™(recombinant somatropin); growth hormone analogs such as PROTROPIN™(somatrem); dopamine agonists such as PARLODEL™ (bromocriptine);somatostatin analogs such as SANDOSTATIN™ (octreotide); gonadotropinpreparations such as PREGNYL™, A.P.L.™ and PROFASI™ (chorionicgonadotropin (CG)), PERGONAL™ (menotropins), and METRODIN™(urofollitropin (uFSH)); synthetic human gonadotropin releasing hormonepreparations such as FACTREL™ and LUTREPULSE™ (gonadorelinhydrochloride); synthetic gonadotropin agonists such as LUPRON™(leuprolide acetate), SUPPRELIN™ (histrelin acetate), SYNAREL™(nafarelin acetate), and ZOLADEX™ (goserelin acetate); syntheticpreparations of thyrotropin-releasing hormone such as RELEFACT TRH™ andTHYPINONE™ (protirelin); recombinant human TSH such as THYROGEN™;synthetic preparations of the sodium salts of the natural isomers ofthyroid hormones such as L-T₄™, SYNTHROID™ and LEVOTHROID™(levothyroxine sodium), L-T₃™, CYTOMEL™ and TRIOSTAT™ (liothyroinesodium), and THYROLAR™ (liotrix); antithyroid compounds such as6-n-propylthiouracil (propylthiouracil), 1-methyl-2-mercaptoimidazoleand TAPAZOLE™ (methimazole), NEO-MERCAZOLE™ (carbimazole);beta-adrenergic receptor antagonists such as propranolol and esmolol;Ca²⁺ channel blockers; dexamethasone and iodinated radiological contrastagents such as TELEPAQUE™ (iopanoic acid) and ORAGRAFIN™ (sodiumipodate).

Additional treatments for endocrine and/or hormone imbalance disordersinclude, but are not limited to, estrogens or congugated estrogens suchas ESTRACE™ (estradiol), ESTINYL™ (ethinyl estradiol), PREMARIN™,ESTRATAB™, ORTHO-EST™, OGEN™ and estropipate (estrone), ESTROVIS™(quinestrol), ESTRADERM™ (estradiol), DELESTROGEN™ and VALERGEN™(estradiol valerate), DEPO-ESTRADIOL CYPIONATE™ and ESTROJECT LA™(estradiol cypionate); antiestrogens such as NOLVADEX™ (tamoxifen),SEROPHENE™ and CLOMID™ (clomiphene); progestins such as DURALUTIN™(hydroxyprogesterone caproate), MPA™ and DEPO-PROVERA™(medroxyprogesterone acetate), PROVERA™ and CYCRIN™ (MPA), MEGACE™(megestrol acetate), NORLUTIN™ (norethindrone), and NORLUTATE™ andAYGESTIN™ (norethindrone acetate); progesterone implants such asNORPLANT SYSTEM™ (subdermal implants of norgestrel); antiprogestins suchas RU 486™ (mifepristone); hormonal contraceptives such as ENOVID™(norethynodrel plus mestranol), PROGESTASERT™ (intrauterine device thatreleases progesterone), LOESTRIN™, BREVICON™, MODICON™, GENORA™,NELONA™, NORINYL™, OVACON-35™ and OVACON-50™ (ethinylestradiol/norethindrone), LEVLEN™, NORDETTE™, TRI-LEVLEN™ andTRIPHASIL-21™ (ethinyl estradiol/levonorgestrel) LO/OVRAL™ and OVRAL™(ethinyl estradiol/norgestrel), DEMULEN™ (ethinyl estradiol/ethynodioldiacetate), NORINYL™, ORTHO-NOVUM™, NORETHIN™, GENORA™, and NELOVA™(norethindrone/mestranol), DESOGEN™ and ORTHO-CEPT™ (ethinylestradiol/desogestrel), ORTHO-CYCLEN™ and ORTHO-TRICYCLEN™ (ethinylestradiol/norgestimate), MICRONOR™ and NOR-QD™ (norethindrone), andOVRETTE™ (norgestrel).

Additional treatments for endocrine and/or hormone imbalance disordersinclude, but are not limited to, testosterone esters such as methenoloneacetate and testosterone undecanoate; parenteral and oral androgens suchas TESTOJECT-50™ (testosterone), TESTEX™ (testosterone propionate),DELATESTRYL™ (testosterone enanthate), DEPO-TESTOSTERONE™ (testosteronecypionate), DANOCRINE™ (danazol), HALOTESTIN™ (fluoxymesterone), ORETONMETHYL™, TESTRED™ and VIRILON™ (methyltestosterone), and OXANDRIN™(oxandrolone); testosterone transdermal systems such as TESTODERM™;androgen receptor antagonist and 5-alpha-reductase inhibitors such asANDROCUR™ (cyproterone acetate), EULEXIN™ (flutamide), and PROSCAR™(finasteride); adrenocorticotropic hormone preparations such asCORTROSYN™ (cosyntropin); adrenocortical steroids and their syntheticanalogs such as ACLOVATE™ (alclometasone dipropionate), CYCLOCORT™(amcinonide), BECLOVENT™ and VANCERIL™ (beclomethasone dipropionate),CELESTONE™ (betamethasone), BENISONE™ and UTICORT™ (betamethasonebenzoate), DIPROSONE™ (betamethasone dipropionate), CELESTONE PHOSPHATE™(betamethasone sodium phosphate), CELESTONE SOLUSPAN™ (betamethasonesodium phosphate and acetate), BETA-VAL™ and VALISONE™ (betamethasonevalerate), TEMOVATE™ (clobetasol propionate), CLODERM™ (clocortolonepivalate), CORTEF™ and HYDROCORTONE™ (cortisol (hydrocortisone)),HYDROCORTONE ACETATE™ (cortisol (hydrocortisone) acetate), LOCOID™(cortisol (hydrocortisone) butyrate), HYDROCORTONE PHOSPHATE™ (cortisol(hydrocortisone) sodium phosphate), A-HYDROCORT™ and SOLU CORTEF™(cortisol (hydrocortisone) sodium succinate), WESTCORT™ (cortisol(hydrocortisone) valerate), CORTISONE ACETATE™ (cortisone acetate),DESOWEN™ and TRIDESILON™ (desonide), TOPICORT™ (desoximetasone),DECADRON™ (dexamethasone), DECADRON LA™ (dexamethasone acetate),DECADRON PHOSPHATE™ and HEXADROL PHOSPHATE™ (dexamethasone sodiumphosphate), FLORONE™ and MAXIFLOR™ (diflorasone diacetate), FLORINEFACETATE™ (fludrocortisone acetate), AEROBID™ and NASALIDE™(flunisolide), FLUONID™ and SYNALAR™ (fluocinolone acetonide), LIDEX™(fluocinonide), FLUOR-OP™ and FML™ (fluorometholone), CORDRAN™(flurandrenolide), HALOG™ (halcinonide), HMS LIZUIFILM™ (medrysone),MEDROL™ (methylprednisolone), DEPO-MEDROL™ and MEDROL ACETATE™(methylprednisone acetate), A-METHAPRED™ and SOLUMEDROL™(methylprednisolone sodium succinate), ELOCON™ (mometasone furoate),HALDRONE™ (paramethasone acetate), DELTA-CORTEF™ (prednisolone),ECONOPRED™ (prednisolone acetate), HYDELTRASOL™ (prednisolone sodiumphosphate), HYDELTRA-T.B.A™ (prednisolone tebutate), DELTASONE™(prednisone), ARISTOCORT™ and KENACORT™ (triamcinolone), KENALOG™(triamcinolone acetonide), ARISTOCORT™ and KENACORT DIACETATE™(triamcinolone diacetate), and ARISTOSPAN™ (triamcinolone hexacetonide);inhibitors of biosynthesis and action of adrenocortical steroids such asCYTADREN™ (aminoglutethimide), NIZORAL™ (ketoconazole), MODRASTANE™(trilostane), and METOPIRONE™ (metyrapone); bovine, porcine or humaninsulin or mixtures thereof; insulin analogs; recombinant human insulinsuch as HUMULIN™ and NOVOLIN™; oral hypoglycemic agents such as ORAMIDE™and ORINASE™ (tolbutamide), DIABINESE™ (chlorpropamide), TOLAMIDE™ andTOLINASE™ (tolazamide), DYMELOR™ (acetohexamide), glibenclamide,MICRONASE™, DIBETA™ and GLYNASE™ (glyburide), GLUCOTROL™ (glipizide),and DIAMICRON™ (gliclazide), GLUCOPHAGE™ (metformin), ciglitazone,pioglitazone, and alpha-glucosidase inhibitors; bovine or porcineglucagon; somatostatins such as SANDOSTATIN™ (octreotide); anddiazoxides such as PROGLYCEM™ (diazoxide).

In an additional embodiment, the Therapeutics of the invention areadministered in combination with drugs effective in treating irondeficiency and hypochromic anemias, including but not limited to,ferrous sulfate (iron sulfate, FEOSOL™), ferrous fumarate (e.g.,FEOSTA™), ferrous gluconate (e.g., FERGON™), polysaccharide-iron complex(e.g., NIFEREX™), iron dextran injection (e.g., INFED™), cupric sulfate,pyroxidine, riboflavin, Vitamin B₁₂, cyancobalamin injection (e.g.,REDISOL™, RUBRAMIN PC™), hydroxocobalamin, folic acid (e.g., FOLVITE™),leucovorin (folinic acid, 5-CHOH4PteGlu, citrovorum factor) orWELLCOVORIN (Calcium salt of leucovorin), transferrin or ferritin.

In another embodiment, Therapeutics of the invention are administered incombination with vasodilating agents and/or calcium channel blockingagents. Vasodilating agents that may be administered with theTherapeutics of the invention include, but are not limited to,Angiotensin Converting Enzyme (ACE) inhibitors (e.g., papaverine,isoxsuprine, benazepril, captopril, cilazapril, enalapril, enalaprilat,fosinopril, lisinopril, moexipril, perindopril, quinapril, ramipril,spirapril, trandolapril, and nylidrin), and nitrates (e.g., isosorbidedinitrate, isosorbide mononitrate, and nitroglycerin). Examples ofcalcium channel blocking agents that may be administered in combinationwith the Therapeutics of the invention include, but are not limited toamlodipine, bepridil, diltiazem, felodipine, flunarizine, isradipine,nicardipine, nifedipine, nimodipine, and verapamil.

In certain embodiments, the Therapeutics of the invention areadministered in combination with treatments for gastrointestinaldisorders. Treatments for gastrointestinal disorders that may beadministered with the Therapeutic of the invention include, but are notlimited to, H₂ histamine receptor antagonists (e.g., TAGAMET™(cimetidine), ZANTAC™ (ranitidine), PEPCID™ (famotidine), and AXID™(nizatidine)); inhibitors of H⁺, K⁺ ATPase (e.g., PREVACID™(lansoprazole) and PRILOSEC™ (omeprazole)); Bismuth compounds (e.g.,PEPTO-BISMOL™ (bismuth subsalicylate) and DE-NOL™ (bismuth subcitrate));various antacids; sucralfate; prostaglandin analogs (e.g. CYTOTEC™(misoprostol)); muscarinic cholinergic antagonists; laxatives (e.g.,surfactant laxatives, stimulant laxatives, saline and osmoticlaxatives); antidiarrheal agents (e.g., LOMOTIL™ (diphenoxylate),MOTOFEN™ (diphenoxin), and IMODIUM™ (loperamide hydrochloride)),synthetic analogs of somatostatin such as SANDOSTATIN™ (octreotide),antiemetic agents (e.g., ZOFRAN™ (ondansetron), KYTRIL™ (granisetronhydrochloride), tropisetron, dolasetron, metoclopramide, chlorpromazine,perphenazine, prochlorperazine, promethazine, thiethylperazine,triflupromazine, domperidone, haloperidol, droperidol,trimethobenzamide, dexamethasone, methylprednisolone, dronabinol, andnabilone); D2 antagonists (e.g., metoclopramide, trimethobenzamide andchlorpromazine); bile salts; chenodeoxycholic acid; ursodeoxycholicacid; and pancreatic enzyme preparations such as pancreatin andpancrelipase.

In additional embodiments, the Therapeutics of the invention areadministered in combination with other therapeutic or prophylacticregimens, such as, for example, radiation therapy.

Example 14 Method of Treating Decreased Levels of the Polypeptide

The present invention relates to a method for treating an individual inneed of an increased level of a polypeptide of the invention in the bodycomprising administering to such an individual a composition comprisinga therapeutically effective amount of polypeptides (including agoniststhereto), and/or antibodies of the invention. Moreover, it will beappreciated that conditions caused by a decrease in the standard ornormal expression level of a polypeptide of the present invention in anindividual may be treated by administering agonists of said polypeptide.Thus, the invention also provides a method of treatment of an individualin need of an increased level of the polypeptide comprisingadministering to such an individual a Therapeutic comprising an amountof the agonist (including polypeptides and antibodies of the presentinvention) to increase the activity level of the polypeptide in such anindividual.

For example, a patient with decreased levels of a polypeptide receives adaily dose 0.1-100 ug/kg of the agonist for six consecutive days. Theexact details of the dosing scheme, based on administration andformulation, are provided in Example 13.

Example 15 Method of Treating Increased Levels of the Polypeptide

The present invention also relates to a method of treating an individualin need of a decreased level of a polypeptide of the invention in thebody comprising administering to such an individual a compositioncomprising a therapeutically effective amount of an antagonist of theinvention (including polypeptides and antibodies of the invention).

In one example, antisense technology is used to inhibit production of apolypeptide of the present invention. This technology is one example ofa method of decreasing levels of a polypeptide, due to a variety ofetiologies, such as cancer.

For example, a patient diagnosed with abnormally increased levels of apolypeptide is administered intravenously antisense polynucleotides at0.5, 1.0, 1.5, 2.0 and 3.0 mg/kg day for 21 days. This treatment isrepeated after a 7-day rest period if the treatment was well tolerated.The antisense polynucleotides of the present invention can be formulatedusing techniques and formulations described herein (e.g. see Example13), or otherwise known in the art.

Example 16 Method of Treatment Using Gene Therapy—Ex Vivo

One method of gene therapy transplants fibroblasts, which are capable ofexpressing a polypeptide, onto a patient. Generally, fibroblasts areobtained from a subject by skin biopsy. The resulting tissue is placedin tissue-culture medium and separated into small pieces. Small chunksof the tissue are placed on a wet surface of a tissue culture flask,approximately ten pieces are placed in each flask. The flask is turnedupside down, closed tight and left at room temperature over night. After24 hours at room temperature, the flask is inverted and the chunks oftissue remain fixed to the bottom of the flask and fresh media (e.g.,Ham's F12 media, with 10% FBS, penicillin and streptomycin) is added.The flasks are then incubated at 37 degree C. for approximately oneweek.

At this time, fresh media is added and subsequently changed everyseveral days. After an additional two weeks in culture, a monolayer offibroblasts emerge. The monolayer is trypsinized and scaled into largerflasks.

pMV-7 (Kirschmeier, P. T. et al., DNA, 7:219-25 (1988)), flanked by thelong terminal repeats of the Moloney murine sarcoma virus, is digestedwith EcoRI and HindIII and subsequently treated with calf intestinalphosphatase. The linear vector is fractionated on agarose gel andpurified, using glass beads.

The cDNA encoding a polypeptide of the present invention can beamplified using PCR primers which correspond to the 5′ and 3′ endsequences respectively as set forth in Example 1 using primers andhaving appropriate restriction sites and initiation/stop codons, ifnecessary. Preferably, the 5′ primer contains an EcoRI site and the 3′primer includes a HindIII site. Equal quantities of the Moloney murinesarcoma virus linear backbone and the amplified EcoRI and HindIIIfragment are added together, in the presence of T4 DNA ligase. Theresulting mixture is maintained under conditions appropriate forligation of the two fragments. The ligation mixture is then used totransform bacteria HB101, which are then plated onto agar containingkanamycin for the purpose of confirming that the vector has the gene ofinterest properly inserted.

The amphotropic pA317 or GP+am12 packaging cells are grown in tissueculture to confluent density in Dulbecco's Modified Eagles Medium (DMEM)with 10% calf serum (CS), penicillin and streptomycin. The MSV vectorcontaining the gene is then added to the media and the packaging cellstransduced with the vector. The packaging cells now produce infectiousviral particles containing the gene (the packaging cells are nowreferred to as producer cells).

Fresh media is added to the transduced producer cells, and subsequently,the media is harvested from a 10 cm plate of confluent producer cells.The spent media, containing the infectious viral particles, is filteredthrough a millipore filter to remove detached producer cells and thismedia is then used to infect fibroblast cells. Media is removed from asub-confluent plate of fibroblasts and quickly replaced with the mediafrom the producer cells. This media is removed and replaced with freshmedia. If the titer of virus is high, then virtually all fibroblastswill be infected and no selection is required. If the titer is very low,then it is necessary to use a retroviral vector that has a selectablemarker, such as neo or his. Once the fibroblasts have been efficientlyinfected, the fibroblasts are analyzed to determine whether protein isproduced.

The engineered fibroblasts are then transplanted onto the host, eitheralone or after having been grown to confluence on cytodex 3 microcarrierbeads.

Example 17 Gene Therapy Using Endogenous Genes Corresponding toPolynucleotides of the Invention

Another method of gene therapy according to the present inventioninvolves operably associating the endogenous polynucleotide sequence ofthe invention with a promoter via homologous recombination as described,for example, in U.S. Pat. No. 5,641,670, issued Jun. 24, 1997;International Publication NO: WO 96/29411, published Sep. 26, 1996;International Publication NO: WO 94/12650, published Aug. 4, 1994;Koller et al., Proc. Natl. Acad. Sci. USA, 86:8932-8935 (1989); andZijlstra et al., Nature, 342:435-438 (1989). This method involves theactivation of a gene which is present in the target cells, but which isnot expressed in the cells, or is expressed at a lower level thandesired.

Polynucleotide constructs are made which contain a promoter andtargeting sequences, which are homologous to the 5′ non-coding sequenceof endogenous polynucleotide sequence, flanking the promoter. Thetargeting sequence will be sufficiently near the 5′ end of thepolynucleotide sequence so the promoter will be operably linked to theendogenous sequence upon homologous recombination. The promoter and thetargeting sequences can be amplified using PCR. Preferably, theamplified promoter contains distinct restriction enzyme sites on the 5′and 3′ ends. Preferably, the 3′ end of the first targeting sequencecontains the same restriction enzyme site as the 5′ end of the amplifiedpromoter and the 5′ end of the second targeting sequence contains thesame restriction site as the 3′ end of the amplified promoter.

The amplified promoter and the amplified targeting sequences aredigested with the appropriate restriction enzymes and subsequentlytreated with calf intestinal phosphatase. The digested promoter anddigested targeting sequences are added together in the presence of T4DNA ligase. The resulting mixture is maintained under conditionsappropriate for ligation of the two fragments. The construct is sizefractionated on an agarose gel, then purified by phenol extraction andethanol precipitation.

In this Example, the polynucleotide constructs are administered as nakedpolynucleotides via electroporation. However, the polynucleotideconstructs may also be administered with transfection-facilitatingagents, such as liposomes, viral sequences, viral particles,precipitating agents, etc. Such methods of delivery are known in theart.

Once the cells are transfected, homologous recombination will take placewhich results in the promoter being operably linked to the endogenouspolynucleotide sequence. This results in the expression ofpolynucleotide corresponding to the polynucleotide in the cell.Expression may be detected by immunological staining, or any othermethod known in the art.

Fibroblasts are obtained from a subject by skin biopsy. The resultingtissue is placed in DMEM+10% fetal calf serum. Exponentially growing orearly stationary phase fibroblasts are trypsinized and rinsed from theplastic surface with nutrient medium. An aliquot of the cell suspensionis removed for counting, and the remaining cells are subjected tocentrifugation. The supernatant is aspirated and the pellet isresuspended in 5 ml of electroporation buffer (20 mM HEPES pH 7.3, 137mM NaCl, 5 mM KCl, 0.7 mM Na₂ HPO₄, 6 mM dextrose). The cells arerecentrifuged, the supernatant aspirated, and the cells resuspended inelectroporation buffer containing 1 mg/ml acetylated bovine serumalbumin. The final cell suspension contains approximately 3×10⁶cells/ml. Electroporation should be performed immediately followingresuspension.

Plasmid DNA is prepared according to standard techniques. For example,to construct a plasmid for targeting to the locus corresponding to thepolynucleotide of the invention, plasmid pUC18 (MBI Fermentas, Amherst,N.Y.) is digested with HindIII. The CMV promoter is amplified by PCRwith an XbaI site on the 5′ end and a BamHI site on the 3′ end. Twonon-coding sequences are amplified via PCR: one non-coding sequence(fragment 1) is amplified with a HindIII site at the 5′ end and an Xbasite at the 3′end; the other non-coding sequence (fragment 2) isamplified with a BamHI site at the 5′end and a HindIII site at the3′end. The CMV promoter and the fragments (1 and 2) are digested withthe appropriate enzymes (CMV promoter—XbaI and BamHI; fragment 1—XbaI;fragment 2—BamHI) and ligated together. The resulting ligation productis digested with HindIII, and ligated with the HindIII-digested pUC 18plasmid.

Plasmid DNA is added to a sterile cuvette with a 0.4 cm electrode gap(Bio-Rad). The final DNA concentration is generally at least 120 μg/ml.0.5 ml of the cell suspension (containing approximately 1.5×10⁶ cells)is then added to the cuvette, and the cell suspension and DNA solutionsare gently mixed. Electroporation is performed with a Gene-Pulserapparatus (Bio-Rad). Capacitance and voltage are set at 960 μF and250-300 V, respectively. As voltage increases, cell survival decreases,but the percentage of surviving cells that stably incorporate theintroduced DNA into their genome increases dramatically. Given theseparameters, a pulse time of approximately 14-20 mSec should be observed.

Electroporated cells are maintained at room temperature forapproximately 5 min, and the contents of the cuvette are then gentlyremoved with a sterile transfer pipette. The cells are added directly to10 ml of prewarmed nutrient media (DMEM with 15% calf serum) in a 10 cmdish and incubated at 37 degree C. The following day, the media isaspirated and replaced with 10 ml of fresh media and incubated for afurther 16-24 hours.

The engineered fibroblasts are then injected into the host, either aloneor after having been grown to confluence on cytodex 3 microcarrierbeads. The fibroblasts now produce the protein product. The fibroblastscan then be introduced into a patient as described above.

Example 18 Method of Treatment Using Gene Therapy—In Vivo

Another aspect of the present invention is using in vivo gene therapymethods to prevent, treat, and/or ameliorate allergic and/or asthmaticdiseases and disorders. The gene therapy method relates to theintroduction of naked nucleic acid (DNA, RNA, and antisense DNA or RNA)sequences into an animal to increase or decrease the expression of thepolypeptide. The polynucleotide of the present invention may beoperatively linked to (i.e., associated with) a promoter or any othergenetic elements necessary for the expression of the polypeptide by thetarget tissue. Such gene therapy and delivery techniques and methods areknown in the art, see, for example, WO90/11092, WO98/11779; U.S. Pat.Nos. 5,693,622, 5,705,151, 5,580,859; Tabata et al., Cardiovasc. Res.35(3):470-479 (1997); Chao et al., Pharmacol. Res. 35(6):517-522 (1997);Wolff, Neuromuscul. Disord. 7(5):314-318 (1997); Schwartz et al., GeneTher. 3(5):405-411 (1996); Tsurumi et al., Circulation 94(12):3281-3290(1996) (incorporated herein by reference).

The polynucleotide constructs may be delivered by any method thatdelivers injectable materials to the cells of an animal, such as,injection into the interstitial space of tissues (heart, muscle, skin,lung, liver, intestine and the like). The polynucleotide constructs canbe delivered in a pharmaceutically acceptable liquid or aqueous carrier.

The term “naked” polynucleotide, DNA or RNA, refers to sequences thatare free from any delivery vehicle that acts to assist, promote, orfacilitate entry into the cell, including viral sequences, viralparticles, liposome formulations, lipofectin or precipitating agents andthe like. However, the polynucleotides of the present invention may alsobe delivered in liposome formulations (such as those taught in FeignerP. L. et al. (1995) Ann. NY Acad. Sci. 772:126-139 and Abdallah B. etal. (1995) Biol. Cell 85(1):1-7) which can be prepared by methods wellknown to those skilled in the art.

The polynucleotide vector constructs used in the gene therapy method arepreferably constructs that will not integrate into the host genome norwill they contain sequences that allow for replication. Any strongpromoter known to those skilled in the art can be used for driving theexpression of DNA. Unlike other gene therapy techniques, one majoradvantage of introducing naked nucleic acid sequences into target cellsis the transitory nature of the polynucleotide synthesis in the cells.Studies have shown that non-replicating DNA sequences can be introducedinto cells to provide production of the desired polypeptide for periodsof up to six months.

The polynucleotide construct can be delivered to the interstitial spaceof tissues within an animal, including muscle, skin, brain, lung, liver,spleen, bone marrow, thymus, heart, lymph, blood, bone, cartilage,pancreas, kidney, gall bladder, stomach, intestine, testis, ovary,uterus, rectum, nervous system, eye, gland, and connective tissue.Interstitial space of the tissues comprises the intercellular fluid,mucopolysaccharide matrix among the reticular fibers of organ tissues,elastic fibers in the walls of vessels or chambers, collagen fibers offibrous tissues, or that same matrix within connective tissueensheathing muscle cells or in the lacunae of bone. It is similarly thespace occupied by the plasma of the circulation and the lymph fluid ofthe lymphatic channels. Delivery to the interstitial space of muscletissue is preferred for the reasons discussed below. They may beconveniently delivered by injection into the tissues comprising thesecells. They are preferably delivered to and expressed in persistent,non-dividing cells which are differentiated, although delivery andexpression may be achieved in non-differentiated or less completelydifferentiated cells, such as, for example, stem cells of blood or skinfibroblasts. In vivo muscle cells are particularly competent in theirability to take up and express polynucleotides.

For the naked polynucleotide injection, an effective dosage amount ofDNA or RNA will be in the range of from about 0.05 g/kg body weight toabout 50 mg/kg body weight. Preferably the dosage will be from about0.005 mg/kg to about 20 mg/kg and more preferably from about 0.05 mg/kgto about 5 mg/kg. Of course, as the artisan of ordinary skill willappreciate, this dosage will vary according to the tissue site ofinjection. The appropriate and effective dosage of nucleic acid sequencecan readily be determined by those of ordinary skill in the art and maydepend on the condition being treated and the route of administration.The preferred route of administration is by the parenteral route ofinjection into the interstitial space of tissues. However, otherparenteral routes may also be used, such as, inhalation of an aerosolformulation particularly for delivery to lungs or bronchial tissues,throat or mucous membranes of the nose. In addition, nakedpolynucleotide constructs can be delivered to arteries duringangioplasty by the catheter used in the procedure.

The dose response effects of injected polynucleotide in muscle in vivois determined as follows. Suitable template DNA for production of mRNAcoding for polypeptide of the present invention is prepared inaccordance with a standard recombinant DNA methodology. The templateDNA, which may be either circular or linear, is either used as naked DNAor complexed with liposomes. The quadriceps muscles of mice are theninjected with various amounts of the template DNA.

Five to six week old female and male Balb/C mice are anesthetized byintraperitoneal injection with 0.3 ml of 2.5% Avertin. A 1.5 cm incisionis made on the anterior thigh, and the quadriceps muscle is directlyvisualized. The template DNA is injected in 0.1 ml of carrier in a 1 ccsyringe through a 27 gauge needle over one minute, approximately 0.5 cmfrom the distal insertion site of the muscle into the knee and about 0.2cm deep. A suture is placed over the injection site for futurelocalization, and the skin is closed with stainless steel clips.

After an appropriate incubation time (e.g., 7 days) muscle extracts areprepared by excising the entire quadriceps. Every fifth 15 umcross-section of the individual quadriceps muscles is histochemicallystained for protein expression. A time course for protein expression maybe done in a similar fashion except that quadriceps from different miceare harvested at different times. Persistence of DNA in muscle followinginjection may be determined by Southern blot analysis after preparingtotal cellular DNA and HIRT supernatants from injected and control mice.The results of the above experimentation in mice can be used toextrapolate proper dosages and other treatment parameters in humans andother animals using naked DNA.

Example 19 Transgenic Animals

The polypeptides of the invention can also be expressed in transgenicanimals. Animals of any species, including, but not limited to, mice,rats, rabbits, hamsters, guinea pigs, pigs, micro-pigs, goats, sheep,cows and non-human primates, e.g., baboons, monkeys, and chimpanzees maybe used to generate transgenic animals. In a specific embodiment,techniques described herein or otherwise known in the art, are used toexpress polypeptides of the invention in humans, as part of a genetherapy protocol.

Any technique known in the art may be used to introduce the transgene(i.e., polynucleotides of the invention) into animals to produce thefounder lines of transgenic animals. Such techniques include, but arenot limited to, pronuclear microinjection (Paterson et al., Appl.Microbiol. Biotechnol. 40:691-698 (1994); Carver et al., Biotechnology(NY) 11:1263-1270 (1993); Wright et al., Biotechnology (NY) 9:830-834(1991); and Hoppe et al., U.S. Pat. No. 4,873,191 (1989)); retrovirusmediated gene transfer into germ lines (Van der Putten et al., Proc.Natl. Acad. Sci., USA 82:6148-6152 (1985)), blastocysts or embryos; genetargeting in embryonic stem cells (Thompson et al., Cell 56:313-321(1989)); electroporation of cells or embryos (Lo, 1983, Mol Cell. Biol.3:1803-1814 (1983)); introduction of the polynucleotides of theinvention using a gene gun (see, e.g., Ulmer et al., Science 259:1745(1993); introducing nucleic acid constructs into embryonic pleuripotentstem cells and transferring the stem cells back into the blastocyst; andsperm-mediated gene transfer (Lavitrano et al., Cell 57:717-723 (1989);etc. For a review of such techniques, see Gordon, “Transgenic Animals,”Intl. Rev. Cytol. 115:171-229 (1989), which is incorporated by referenceherein in its entirety.

Any technique known in the art may be used to produce transgenic clonescontaining polynucleotides of the invention, for example, nucleartransfer into enucleated oocytes of nuclei from cultured embryonic,fetal, or adult cells induced to quiescence (Campell et al., Nature380:64-66 (1996); Wilmut et al., Nature 385:810-813 (1997)).

The present invention provides for transgenic animals that carry thetransgene in all their cells, as well as animals which carry thetransgene in some, but not all their cells, i.e., mosaic animals orchimeric. The transgene may be integrated as a single transgene or asmultiple copies such as in concatamers, e.g., head-to-head tandems orhead-to-tail tandems. The transgene may also be selectively introducedinto and activated in a particular cell type by following, for example,the teaching of Lasko et al. (Lasko et al., Proc. Natl. Acad. Sci. USA89:6232-6236 (1992)). The regulatory sequences required for such acell-type specific activation will depend upon the particular cell typeof interest, and will be apparent to those of skill in the art. When itis desired that the polynucleotide transgene be integrated into thechromosomal site of the endogenous gene, gene targeting is preferred.Briefly, when such a technique is to be utilized, vectors containingsome nucleotide sequences homologous to the endogenous gene are designedfor the purpose of integrating, via homologous recombination withchromosomal sequences, into and disrupting the function of thenucleotide sequence of the endogenous gene. The transgene may also beselectively introduced into a particular cell type, thus inactivatingthe endogenous gene in only that cell type, by following, for example,the teaching of Gu et al. (Gu et al., Science 265:103-106 (1994)). Theregulatory sequences required for such a cell-type specific inactivationwill depend upon the particular cell type of interest, and will beapparent to those of skill in the art.

Once transgenic animals have been generated, the expression of therecombinant gene may be assayed utilizing standard techniques. Initialscreening may be accomplished by Southern blot analysis or PCRtechniques to analyze animal tissues to verify that integration of thetransgene has taken place. The level of mRNA expression of the transgenein the tissues of the transgenic animals may also be assessed usingtechniques which include, but are not limited to, Northern blot analysisof tissue samples obtained from the animal, in situ hybridizationanalysis, and reverse transcriptase-PCR (rt-PCR). Samples of transgenicgene-expressing tissue may also be evaluated immunocytochemically orimmunohistochemically using antibodies specific for the transgeneproduct.

Once the founder animals are produced, they may be bred, inbred,outbred, or crossbred to produce colonies of the particular animal.Examples of such breeding strategies include, but are not limited to:outbreeding of founder animals with more than one integration site inorder to establish separate lines; inbreeding of separate lines in orderto produce compound transgenics that express the transgene at higherlevels because of the effects of additive expression of each transgene;crossing of heterozygous transgenic animals to produce animalshomozygous for a given integration site in order to both augmentexpression and eliminate the need for screening of animals by DNAanalysis; crossing of separate homozygous lines to produce compoundheterozygous or homozygous lines; and breeding to place the transgene ona distinct background that is appropriate for an experimental model ofinterest.

Transgenic animals of the invention have uses which include, but are notlimited to, animal model systems useful in elaborating the biologicalfunction of polypeptides of the present invention, studying conditionsand/or disorders associated with aberrant expression, and in screeningfor compounds effective in ameliorating such conditions and/ordisorders.

Example 20 Knock-Out Animals

Endogenous gene expression can also be reduced by inactivating or“knocking out” the gene and/or its promoter using targeted homologousrecombination. (e.g., see Smithies et al., Nature 317:230-234 (1985);Thomas & Capecchi, Cell 51:503-512 (1987); Thompson et al., Cell5:313-321 (1989); each of which is incorporated by reference herein inits entirety). For example, a mutant, non-functional polynucleotide ofthe invention (or a completely unrelated DNA sequence) flanked by DNAhomologous to the endogenous polynucleotide sequence (either the codingregions or regulatory regions of the gene) can be used, with or withouta selectable marker and/or a negative selectable marker, to transfectcells that express polypeptides of the invention in vivo. In anotherembodiment, techniques known in the art are used to generate knockoutsin cells that contain, but do not express the gene of interest.Insertion of the DNA construct, via targeted homologous recombination,results in inactivation of the targeted gene. Such approaches areparticularly suited in research and agricultural fields wheremodifications to embryonic stem cells can be used to generate animaloffspring with an inactive targeted gene (e.g., see Thomas & Capecchi1987 and Thompson 1989, supra). However this approach can be routinelyadapted for use in humans provided the recombinant DNA constructs aredirectly administered or targeted to the required site in vivo usingappropriate viral vectors that will be apparent to those of skill in theart.

In further embodiments of the invention, cells that are geneticallyengineered to express the polypeptides of the invention, oralternatively, that are genetically engineered not to express thepolypeptides of the invention (e.g., knockouts) are administered to apatient in vivo. Such cells may be obtained from the patient (i.e.,animal, including human) or an MHC compatible donor and can include, butare not limited to fibroblasts, bone marrow cells, blood cells (e.g.,lymphocytes), adipocytes, muscle cells, endothelial cells etc. The cellsare genetically engineered in vitro using recombinant DNA techniques tointroduce the coding sequence of polypeptides of the invention into thecells, or alternatively, to disrupt the coding sequence and/orendogenous regulatory sequence associated with the polypeptides of theinvention, e.g., by transduction (using viral vectors, and preferablyvectors that integrate the transgene into the cell genome) ortransfection procedures, including, but not limited to, the use ofplasmids, cosmids, YACs, naked DNA, electroporation, liposomes, etc. Thecoding sequence of the polypeptides of the invention can be placed underthe control of a strong constitutive or inducible promoter orpromoter/enhancer to achieve expression, and preferably secretion, ofthe polypeptides of the invention. The engineered cells which expressand preferably secrete the polypeptides of the invention can beintroduced into the patient systemically, e.g., in the circulation, orintraperitoneally.

Alternatively, the cells can be incorporated into a matrix and implantedin the body, e.g., genetically engineered fibroblasts can be implantedas part of a skin graft; genetically engineered endothelial cells can beimplanted as part of a lymphatic or vascular graft. (See, for example,Anderson et al. U.S. Pat. No. 5,399,349; and Mulligan & Wilson, U.S.Pat. No. 5,460,959 each of which is incorporated by reference herein inits entirety).

When the cells to be administered are non-autologous or non-MHCcompatible cells, they can be administered using well known techniqueswhich prevent the development of a host immune response against theintroduced cells. For example, the cells may be introduced in anencapsulated form which, while allowing for an exchange of componentswith the immediate extracellular environment, does not allow theintroduced cells to be recognized by the host immune system.

Transgenic and “knock-out” animals of the invention have uses whichinclude, but are not limited to, animal model systems useful inelaborating the biological function of polypeptides of the presentinvention, studying conditions and/or disorders associated with aberrantexpression, and in screening for compounds effective in amelioratingsuch conditions and/or disorders.

Example 21 Assays Detecting Stimulation or Inhibition of B cellProliferation and Differentiation

Generation of functional humoral immune responses requires both solubleand cognate signaling between B-lineage cells and theirmicroenvironment. Signals may impart a positive stimulus that allows aB-lineage cell to continue its programmed development, or a negativestimulus that instructs the cell to arrest its current developmentalpathway. To date, numerous stimulatory and inhibitory signals have beenfound to influence B cell responsiveness including IL-2, IL-4, IL-5,IL-6, IL-7, IL10, IL-13, IL-14 and IL-15. Interestingly, these signalsare by themselves weak effectors but can, in combination with variousco-stimulatory proteins, induce activation, proliferation,differentiation, homing, tolerance and death among B cell populations.

One of the best studied classes of B-cell co-stimulatory proteins is theTNF-superfamily. Within this family CD40, CD27, and CD30 along withtheir respective ligands CD154, CD70, and CD153 have been found toregulate a variety of immune responses. Assays which allow for thedetection and/or observation of the proliferation and differentiation ofthese B-cell populations and their precursors are valuable tools indetermining the effects various proteins may have on these B-cellpopulations in terms of proliferation and differentiation. Listed beloware two assays designed to allow for the detection of thedifferentiation, proliferation, or inhibition of B-cell populations andtheir precursors.

In Vitro Assay—Agonists or antagonists of the invention can be assessedfor its ability to induce activation, proliferation, differentiation orinhibition and/or death in B-cell populations and their precursors. Theactivity of the agonists or antagonists of the invention on purifiedhuman tonsillar B cells, measured qualitatively over the dose range from0.1 to 10,000 ng/mL, is assessed in a standard B-lymphocyteco-stimulation assay in which purified tonsillar B cells are cultured inthe presence of either formalin-fixed Staphylococcus aureus Cowan I(SAC) or immobilized anti-human IgM antibody as the priming agent.Second signals such as IL-2 and IL-15 synergize with SAC and IgMcrosslinking to elicit B cell proliferation as measured bytritiated-thymidine incorporation. Novel synergizing agents can bereadily identified using this assay. The assay involves isolating humantonsillar B cells by magnetic bead (MACS) depletion of CD3-positivecells. The resulting cell population is greater than 95% B cells asassessed by expression of CD45R(B220).

Various dilutions of each sample are placed into individual wells of a96-well plate to which are added 10⁵ B-cells suspended in culture medium(RPMI 1640 containing 10% FBS, 5×10⁻⁵M 2ME, 100 U/ml penicillin, 10ug/ml streptomycin, and 10⁻⁵ dilution of SAC) in a total volume of 150ul. Proliferation or inhibition is quantitated by a 20 h pulse (1uCi/well) with 3H-thymidine (6.7 Ci/mM) beginning 72 h post factoraddition. The positive and negative controls are IL2 and mediumrespectively.

In vivo Assay—BALB/c mice are injected (i.p.) twice per day with bufferonly, or 2 mg/Kg of agonists or antagonists of the invention, ortruncated forms thereof. Mice receive this treatment for 4 consecutivedays, at which time they are sacrificed and various tissues and serumcollected for analyses. Comparison of H&E sections from normal spleensand spleens treated with agonists or antagonists of the inventionidentify the results of the activity of the agonists or antagonists onspleen cells, such as the diffusion of peri-arterial lymphatic sheaths,and/or significant increases in the nucleated cellularity of the redpulp regions, which may indicate the activation of the differentiationand proliferation of B-cell populations. Immunohistochemical studiesusing a B cell marker, anti-CD45R(B220), are used to determine whetherany physiological changes to splenic cells, such as splenicdisorganization, are due to increased B-cell representation withinloosely defined B-cell zones that infiltrate established T-cell regions.

Flow cytometric analyses of the spleens from mice treated with agonistor antagonist is used to indicate whether the agonists or antagonistsspecifically increases the proportion of ThB+, CD45R(B220)dull B cellsover that which is observed in control mice.

Likewise, a predicted consequence of increased mature B-cellrepresentation in vivo is a relative increase in serum Ig titers.Accordingly, serum IgM and IgA levels are compared between buffer andagonists or antagonists-treated mice.

The studies described in this example tested activity of agonists orantagonists of the invention. However, one skilled in the art couldeasily modify the exemplified studies to test the activity ofpolynucleotides or polypeptides of the invention (e.g., gene therapy).

Example 22 T Cell Proliferation Assay

A CD3-induced proliferation assay is performed on PBMCs and is measuredby the uptake of ³H-thymidine. The assay is performed as follows.Ninety-six well plates are coated with 100 μl/well of mAb to CD3 (HIT3a,Pharmingen) or isotype-matched control mAb (B33.1) overnight at 4degrees C. (1 μg/ml in 0.05M bicarbonate buffer, pH 9.5), then washedthree times with PBS. PBMC are isolated by F/H gradient centrifugationfrom human peripheral blood and added to quadruplicate wells(5×10⁴/well) of mAb coated plates in RPMI containing 10% FCS and P/S inthe presence of varying concentrations of agonists or antagonists of theinvention (total volume 200 ul). Relevant protein buffer and mediumalone are controls. After 48 hr. culture at 37 degrees C., plates arespun for 2 min. at 1000 rpm and 100 μl of supernatant is removed andstored −20 degrees C. for measurement of IL-2 (or other cytokines) ifeffect on proliferation is observed. Wells are supplemented with 100 ulof medium containing 0.5 uCi of ³H-thymidine and cultured at 37 degreesC. for 18-24 hr. Wells are harvested and incorporation of ³H-thymidineused as a measure of proliferation. Anti-CD3 alone is the positivecontrol for proliferation. IL-2 (100 U/ml) is also used as a controlwhich enhances proliferation. Control antibody which does not induceproliferation of T cells is used as the negative control for the effectsof agonists or antagonists of the invention.

The studies described in this example tested activity of agonists orantagonists of the invention. However, one skilled in the art couldeasily modify the exemplified studies to test the activity ofpolynucleotides or polypeptides of the invention (e.g., gene therapy).

Example 23 Effect of Agonists or Antagonists of the Invention on theExpression of MHC Class II, Costimulatory and Adhesion Molecules andCell Differentiation of Monocytes and Monocyte-Derived Human DendriticCells

Dendritic cells are generated by the expansion of proliferatingprecursors found in the peripheral blood: adherent PBMC or elutriatedmonocytic fractions are cultured for 7-10 days with GM-CSF (50 ng/ml)and IL-4 (20 ng/ml). These dendritic cells have the characteristicphenotype of immature cells (expression of CD1, CD80, CD86, CD40 and MHCclass II antigens). Treatment with activating factors, such as TNF-α,causes a rapid change in surface phenotype (increased expression of MHCclass I and II, costimulatory and adhesion molecules, downregulation ofFCγRII, upregulation of CD83). These changes correlate with increasedantigen-presenting capacity and with functional maturation of thedendritic cells.

FACS analysis of surface antigens is performed as follows. Cells aretreated 1-3 days with increasing concentrations of agonist or antagonistof the invention or LPS (positive control), washed with PBS containing1% BSA and 0.02 mM sodium azide, and then incubated with 1:20 dilutionof appropriate FITC- or PE-labeled monoclonal antibodies for 30 minutesat 4 degrees C. After an additional wash, the labeled cells are analyzedby flow cytometry on a FACScan (Becton Dickinson).

Effect on the production of cytokines. Cytokines generated by dendriticcells, in particular IL-12, are important in the initiation of T-celldependent immune responses. IL-12 strongly influences the development ofThl helper T-cell immune response, and induces cytotoxic T and NK cellfunction. An ELISA is used to measure the IL-12 release as follows.Dendritic cells (10⁶/ml) are treated with increasing concentrations ofagonists or antagonists of the invention for 24 hours. LPS (100 ng/ml)is added to the cell culture as positive control. Supernatants from thecell cultures are then collected and analyzed for IL-12 content usingcommercial ELISA kit (e.g., R & D Systems (Minneapolis, Minn.)). Thestandard protocols provided with the kits are used.

Effect on the expression of MHC Class II, costimulatory and adhesionmolecules. Three major families of cell surface antigens can beidentified on monocytes: adhesion molecules, molecules involved inantigen presentation, and Fc receptor. Modulation of the expression ofMHC class II antigens and other costimulatory molecules, such as B7 andICAM-1, may result in changes in the antigen presenting capacity ofmonocytes and ability to induce T cell activation. Increased expressionof Fc receptors may correlate with improved monocyte cytotoxic activity,cytokine release and phagocytosis.

FACS analysis is used to examine the surface antigens as follows.Monocytes are treated 1-5 days with increasing concentrations ofagonists or antagonists of the invention or LPS (positive control),washed with PBS containing 1% BSA and 0.02 mM sodium azide, and thenincubated with 1:20 dilution of appropriate FITC- or PE-labeledmonoclonal antibodies for 30 minutes at 4 degrees C. After an additionalwash, the labeled cells are analyzed by flow cytometry on a FACScan(Becton Dickinson).

Monocyte activation and/or increased survival. Assays for molecules thatactivate (or alternatively, inactivate) monocytes and/or increasemonocyte survival (or alternatively, decrease monocyte survival) areknown in the art and may routinely be applied to determine whether amolecule of the invention functions as an inhibitor or activator ofmonocytes. Agonists or antagonists of the invention can be screenedusing the three assays described below. For each of these assays,Peripheral blood mononuclear cells (PBMC) are purified from single donorleukopacks (American Red Cross, Baltimore, Md.) by centrifugationthrough a Histopaque gradient (Sigma). Monocytes are isolated from PBMCby counterflow centrifugal elutriation.

Monocyte Survival Assay. Human peripheral blood monocytes progressivelylose viability when cultured in absence of serum or other stimuli. Theirdeath results from internally regulated processes (apoptosis). Additionto the culture of activating factors, such as TNF-alpha dramaticallyimproves cell survival and prevents DNA fragmentation. Propidium iodide(PI) staining is used to measure apoptosis as follows. Monocytes arecultured for 48 hours in polypropylene tubes in serum-free medium(positive control), in the presence of 100 ng/ml TNF-alpha (negativecontrol), and in the presence of varying concentrations of the compoundto be tested. Cells are suspended at a concentration of 2×10⁶/ml in PBScontaining PI at a final concentration of 5 μg/ml, and then incubated atroom temperature for 5 minutes before FACScan analysis. PI uptake hasbeen demonstrated to correlate with DNA fragmentation in thisexperimental paradigm.

Effect on cytokine release. An important function ofmonocytes/macrophages is their regulatory activity on other cellularpopulations of the immune system through the release of cytokines afterstimulation. An ELISA to measure cytokine release is performed asfollows. Human monocytes are incubated at a density of 5×10⁵ cells/mlwith increasing concentrations of agonists or antagonists of theinvention and under the same conditions, but in the absence of agonistsor antagonists. For IL-12 production, the cells are primed overnightwith IFN (100 U/ml) in the presence of agonist or antagonist of theinvention. LPS (10 ng/ml) is then added. Conditioned media are collectedafter 24 h and kept frozen until use. Measurement of TNF-alpha, IL-10,MCP-1 and IL-8 is then performed using a commercially available ELISAkit (e.g., R & D Systems (Minneapolis, Minn.)) and applying the standardprotocols provided with the kit.

Oxidative burst. Purified monocytes are plated in 96-w plate at 2-×10⁵cell/well. Increasing concentrations of agonists or antagonists of theinvention are added to the wells in a total volume of 0.2 ml culturemedium (RPMI 1640+10% FCS, glutamine and antibiotics). After 3 daysincubation, the plates are centrifuged and the medium is removed fromthe wells. To the macrophage monolayers, 0.2 ml per well of phenol redsolution (140 mM NaCl, 10 mM potassium phosphate buffer pH 7.0, 5.5 mMdextrose, 0.56 mM phenol red and 19 U/ml of HRPO) is added, togetherwith the stimulant (200 nM PMA). The plates are incubated at 37° C. for2 hours and the reaction is stopped by adding 20 μl 1N NaOH per well.The absorbance is read at 610 nm. To calculate the amount of H₂O₂produced by the macrophages, a standard curve of a H₂O₂ solution ofknown molarity is performed for each experiment.

The studies described in this example tested activity of agonists orantagonists of the invention. However, one skilled in the art couldeasily modify the exemplified studies to test the activity ofpolynucleotides or polypeptides of the invention (e.g., gene therapy).

Example 24 Suppression of TNF Alpha-Induced Adhesion Molecule Expressionby an Agonist or Antagonist of the Invention

The recruitment of lymphocytes to areas of inflammation and angiogenesisinvolves specific receptor-ligand interactions between cell surfaceadhesion molecules (CAMs) on lymphocytes and the vascular endothelium.The adhesion process, in both normal and pathological settings, followsa multi-step cascade that involves intercellular adhesion molecule-1(ICAM-1), vascular cell adhesion molecule-1 (VCAM-1), and endothelialleukocyte adhesion molecule-1 (E-selectin) expression on endothelialcells (EC). The expression of these molecules and others on the vascularendothelium determines the efficiency with which leukocytes may adhereto the local vasculature and extravasate into the local tissue duringthe development of an inflammatory response. The local concentration ofcytokines and growth factor participate in the modulation of theexpression of these CAMs.

Tumor necrosis factor alpha (TNF-a), a potent proinflammatory cytokine,is a stimulator of all three CAMs on endothelial cells and may beinvolved in a wide variety of inflammatory responses, often resulting ina pathological outcome.

The potential of an agonist or antagonist of the invention to mediate asuppression of TNF-a induced CAM expression can be examined. A modifiedELISA assay which uses ECs as a solid phase absorbent is employed tomeasure the amount of CAM expression on TNF-a treated ECs whenco-stimulated with a member of the FGF family of proteins.

To perform the experiment, human umbilical vein endothelial cell (HUVEC)cultures are obtained from pooled cord harvests and maintained in growthmedium (EGM-2; Clonetics, San Diego, Calif.) supplemented with 10% FCSand 1% penicillin/streptomycin in a 37 degree C. humidified incubatorcontaining 5% CO₂. HUVECs are seeded in 96-well plates at concentrationsof 1×10⁴ cells/well in EGM medium at 37 degree C. for 18-24 hrs or untilconfluent. The monolayers are subsequently washed 3 times with aserum-free solution of RPMI-1640 supplemented with 100 U/ml penicillinand 100 mg/ml streptomycin, and treated with a given cytokine and/orgrowth factor(s) for 24 h at 37 degree C. Following incubation, thecells are then evaluated for CAM expression.

Human Umbilical Vein Endothelial cells (HUVECs) are grown in a standard96 well plate to confluence. Growth medium is removed from the cells andreplaced with 90 ul of 199 Medium (10% FBS). Samples for testing andpositive or negative controls are added to the plate in triplicate (in10 ul volumes). Plates are incubated at 37 degree C. for either 5 h(selectin and integrin expression) or 24 h (integrin expression only).Plates are aspirated to remove medium and 100 μl of 0.1%paraformaldehyde-PBS (with Ca++ and Mg++) is added to each well. Platesare held at 4° C. for 30 min.

Fixative is then removed from the wells and wells are washed 1× withPBS(+Ca,Mg)+0.5% BSA and drained. Do not allow the wells to dry. Add 10μl of diluted primary antibody to the test and control wells.Anti-ICAM-1-Biotin, Anti-VCAM-1-Biotin and Anti-E-selectin-Biotin areused at a concentration of 10 μg/ml (1:10 dilution of 0.1 mg/ml stockantibody). Cells are incubated at 37° C. for 30 min. in a humidifiedenvironment. Wells are washed ×3 with PBS(+Ca,Mg)+0.5% BSA.

Then add 20 μl of diluted ExtrAvidin-Alkaline Phosphotase (1:5,000dilution) to each well and incubated at 37° C. for 30 min. Wells arewashed ×3 with PBS(+Ca,Mg)+0.5% BSA. 1 tablet of p-Nitrophenol PhosphatepNPP is dissolved in 5 ml of glycine buffer (pH 10.4). 100 μl of pNPPsubstrate in glycine buffer is added to each test well. Standard wellsin triplicate are prepared from the working dilution of theExtrAvidin-Alkaline Phosphotase in glycine buffer: 1:5,000(10⁰)>10^(−0.5)>10⁻¹>10^(−1.5). 5 μl of each dilution is added totriplicate wells and the resulting AP content in each well is 5.50 ng,1.74 ng, 0.55 ng, 0.18 ng. 100 μl of pNNP reagent must then be added toeach of the standard wells. The plate must be incubated at 37° C. for 4h. A volume of 50 μl of 3M NaOH is added to all wells. The results arequantified on a plate reader at 405 nm. The background subtractionoption is used on blank wells filled with glycine buffer only. Thetemplate is set up to indicate the concentration of AP-conjugate in eachstandard well [5.50 ng; 1.74 ng; 0.55 ng; 0.18 ng]. Results areindicated as amount of bound AP-conjugate in each sample.

The studies described in this example tested activity of agonists orantagonists of the invention. However, one skilled in the art couldeasily modify the exemplified studies to test the activity ofpolynucleotides or polypeptides of the invention (e.g., gene therapy).

Example 25 Production of Polypeptide of the Invention forHigh-Throughput Screening Assays

The following protocol produces a supernatant containing polypeptide ofthe present invention to be tested. This supernatant can then be used inthe Screening Assays described in Examples 27-34.

First, dilute Poly-D-Lysine (644 587 Boehringer-Mannheim) stock solution(1 mg/ml in PBS) 1:20 in PBS (w/o calcium or magnesium 17-516FBiowhittaker) for a working solution of 50 ug/ml. Add 200 ul of thissolution to each well (24 well plates) and incubate at RT for 20minutes. Be sure to distribute the solution over each well (note: a12-channel pipetter may be used with tips on every other channel).Aspirate off the Poly-D-Lysine solution and rinse with 1 ml PBS(Phosphate Buffered Saline). The PBS should remain in the well untiljust prior to plating the cells and plates may be poly-lysine coated inadvance for up to two weeks.

Plate 293T cells (do not carry cells past P+20) at 2×10⁵ cells/well in0.5 ml DMEM (Dulbecco's Modified Eagle Medium)(with 4.5 G/L glucose andL-glutamine(12-604F Biowhittaker))/10% heat inactivated FBS(14-503FBiowhittaker)/1× Penstrep(17-602E Biowhittaker). Let the cells growovernight.

The next day, mix together in a sterile solution basin: 300 ulLipofectamine (18324-012 Gibco/BRL) and 5 ml Optimem 1 (31985070Gibco/BRL)/96-well plate. With a small volume multi-channel pipetter,aliquot approximately 2 ug of an expression vector containing apolynucleotide insert, produced by the methods described in Examples8-10, into an appropriately labeled 96-well round bottom plate. With amulti-channel pipetter, add 50 ul of the Lipofectamine/Optimem I mixtureto each well. Pipette up and down gently to mix. Incubate at RT 15-45minutes. After about 20 minutes, use a multi-channel pipetter to add 150ul Optimem I to each well. As a control, one plate of vector DNA lackingan insert should be transfected with each set of transfections.

Preferably, the transfection should be performed by tag-teaming thefollowing tasks. By tag-teaming, hands on time is cut in half, and thecells do not spend too much time on PBS. First, person A aspirates offthe media from four 24-well plates of cells, and then person B rinseseach well with 0.5-1 ml PBS. Person A then aspirates off PBS rinse, andperson B, using a 12-channel pipetter with tips on every other channel,adds the 200 ul of DNA/Lipofectamine/Optimem I complex to the odd wellsfirst, then to the even wells, to each row on the 24-well plates.Incubate at 37 degree C. for 6 hours.

While cells are incubating, prepare appropriate media, either 1% BSA inDMEM with 1× penstrep, or HGS CHO-5 media (116.6 mg/L of CaCl2 (anhyd);0.00130 mg/L CuSO₄-5H₂O; 0.050 mg/L of Fe(NO₃)₃-9H₂O; 0.417 mg/L ofFeSO₄-7H₂O; 311.80 mg/L of Kcl; 28.64 mg/L of MgCl₂; 48.84 mg/L ofMgSO₄; 6995.50 mg/L of NaCl; 2400.0 mg/L of NaHCO₃; 62.50 mg/L ofNaH₂PO₄—H₂O; 71.02 mg/L of Na₂HPO4; 0.4320 mg/L of ZnSO₄-7H20; 0.002mg/L of Arachidonic Acid; 1.022 mg/L of Cholesterol; 0.070 mg/L ofDL-alpha-Tocopherol-Acetate; 0.0520 mg/L of Linoleic Acid; 0.010 mg/L ofLinolenic Acid; 0.010 mg/L of Myristic Acid; 0.010 mg/L of Oleic Acid;0.010 mg/L of Palmitric Acid; 0.010 mg/L of Palmitic Acid; 100 mg/L ofPluronic F-68; 0.010 mg/L of Stearic Acid; 2.20 mg/L of Tween 80; 4551mg/L of D-Glucose; 130.85 mg/ml of L-Alanine; 147.50 mg/ml ofL-Arginine-HCL; 7.50 mg/ml of L-Asparagine-H₂0; 6.65 mg/ml of L-AsparticAcid; 29.56 mg/ml of L-Cystine-2HCL-H₂0; 31.29 mg/ml of L-Cystine-2HCL;7.35 mg/ml of L-Glutamic Acid; 365.0 mg/ml of L-Glutamine; 18.75 mg/mlof Glycine; 52.48 mg/ml of L-Histidine-HCL-H₂0; 106.97 mg/ml ofL-Isoleucine; 111.45 mg/ml of L-Leucine; 163.75 mg/ml of L-Lysine HCL;32.34 mg/ml of L-Methionine; 68.48 mg/ml of L-Phenylalainine; 40.0 mg/mlof L-Proline; 26.25 mg/ml of L-Serine; 101.05 mg/ml of L-Threonine;19.22 mg/ml of L-Tryptophan; 91.79 mg/ml of L-Tryrosine-2Na-2H₂0; and99.65 mg/ml of L-Valine; 0.0035 mg/L of Biotin; 3.24 mg/L of D-CaPantothenate; 11.78 mg/L of Choline Chloride; 4.65 mg/L of Folic Acid;15.60 mg/L of i-lnositol; 3.02 mg/L of Niacinamide; 3.00 mg/L ofPyridoxal HCL; 0.031 mg/L of Pyridoxine HCL; 0.319 mg/L of Riboflavin;3.17 mg/L of Thiamine HCL; 0.365 mg/L of Thymidine; 0.680 mg/L ofVitamin B₁₂; 25 mM of HEPES Buffer; 2.39 mg/L of Na Hypoxanthine; 0.105mg/L of Lipoic Acid; 0.081 mg/L of Sodium Putrescine-2HCL; 55.0 mg/L ofSodium Pyruvate; 0.0067 mg/L of Sodium Selenite; 20 uM of Ethanolamine;0.122 mg/L of Ferric Citrate; 41.70 mg/L of Methyl-B-Cyclodextrincomplexed with Linoleic Acid; 33.33 mg/L of Methyl-B-Cyclodextrincomplexed with Oleic Acid; 10 mg/L of Methyl-B-Cyclodextrin complexedwith Retinal Acetate. Adjust osmolarity to 327 mOsm) with 2 mm glutamineand 1× penstrep. (BSA (81-068-3 Bayer) 100 gm dissolved in 1 L DMEM fora 10% BSA stock solution). Filter the media and collect 50 ul forendotoxin assay in 15 ml polystyrene conical.

The transfection reaction is terminated, preferably by tag-teaming, atthe end of the incubation period. Person A aspirates off thetransfection media, while person B adds 1.5 ml appropriate media to eachwell. Incubate at 37 degree C. for 45 or 72 hours depending on the mediaused: 1% BSA for 45 hours or CHO-5 for 72 hours.

On day four, using a 300 ul multichannel pipetter, aliquot 600 ul in one1 ml deep well plate and the remaining supernatant into a 2 ml deepwell. The supernatants from each well can then be used in the assaysdescribed in Examples 27-33.

It is specifically understood that when activity is obtained in any ofthe assays described below using a supernatant, the activity originatesfrom either the polypeptide of the present invention directly (e.g., asa secreted protein) or by polypeptide of the present invention inducingexpression of other proteins, which are then secreted into thesupernatant. Thus, the invention further provides a method ofidentifying the protein in the supernatant characterized by an activityin a particular assay.

Example 26 Construction of GAS Reporter Construct

One signal transduction pathway involved in the differentiation andproliferation of cells is called the Jaks-STATs pathway. Activatedproteins in the Jaks-STATs pathway bind to gamma activation site “GAS”elements or interferon-sensitive responsive element (“ISRE”), located inthe promoter of many genes. The binding of a protein to these elementsalter the expression of the associated gene.

GAS and ISRE elements are recognized by a class of transcription factorscalled Signal Transducers and Activators of Transcription, or “STATs.”There are six members of the STATs family. Stat1 and Stat3 are presentin many cell types, as is Stat2 (as response to IFN-alpha iswidespread). Stat4 is more restricted and is not in many cell typesthough it has been found in T helper class I, cells after treatment withIL-12. Stat5 was originally called mammary growth factor, but has beenfound at higher concentrations in other cells including myeloid cells.It can be activated in tissue culture cells by many cytokines.

The STATs are activated to translocate from the cytoplasm to the nucleusupon tyrosine phosphorylation by a set of kinases known as the JanusKinase (“Jaks”) family. Jaks represent a distinct family of solubletyrosine kinases and include Tyk2, Jak1, Jak2, and Jak3. These kinasesdisplay significant sequence similarity and are generally catalyticallyinactive in resting cells.

The Jaks are activated by a wide range of receptors summarized in theTable below. (Adapted from review by Schidler and Damell, Ann. Rev.Biochem. 64:621-51 (1995)). A cytokine receptor family, capable ofactivating Jaks, is divided into two groups: (a) Class 1 includesreceptors for IL-2, IL-3, IL-4, IL-6, IL-7, IL-9, IL-11, IL-12, IL-15,Epo, PRL, GH, G-CSF, GM-CSF, LIF, CNTF, and thrombopoietin; and (b)Class 2 includes IFN-a, IFN-g, and IL-10. The Class 1 receptors share aconserved cysteine motif (a set of four conserved cysteines and onetryptophan) and a WSXWS motif (a membrane proximal region encodingTrp-Ser-Xaa-Trp-Ser (SEQ ID NO: 2)).

Thus, on binding of a ligand to a receptor, Jaks are activated, which inturn activate STATs, which then translocate and bind to GAS elements.This entire process is encompassed in the Jaks-STATs signal transductionpathway. Therefore, activation of the Jaks-STATs pathway, reflected bythe binding of the GAS or the ISRE element, can be used to indicateproteins involved in the proliferation and differentiation of cells. Forexample, growth factors and cytokines are known to activate theJaks-STATs pathway (See Table below). Thus, by using GAS elements linkedto reporter molecules, activators of the Jaks-STATs pathway can beidentified. JAKs Ligand tyk2 Jak1 Jak2 Jak3 STATS GAS (elements) or ISREIFN family IFN-a/B + + − − 1, 2, 3 ISRE IFN-g + + − 1 GAS (IRF1 > Lys6 >IFP) Il-10 + ? ? − 1, 3 gp130 family IL-6 (Pleiotropic) + + + ? 1, 3 GAS(IRF1 > Lys6 > IFP) Il-11 (Pleiotropic) ? + ? ? 1, 3 OnM (Pleiotropic)? + + ? 1, 3 LIF (Pleiotropic) ? + + ? 1, 3 CNTF (Pleiotropic) −/+ + + ?1, 3 G-CSF (Pleiotropic) ? + ? ? 1, 3 IL-12 (Pleiotropic) + − + + 1, 3g-C family IL-2 (lymphocytes) − + − + 1, 3, 5 GAS IL-4 (lymph/myeloid)− + − + 6 GAS (IRF1 = IFP >> Ly6)(IgH) IL-7 (lymphocytes) − + − + 5 GASIL-9 (lymphocytes) − + − + 5 GAS IL-13 (lymphocyte) − + ? ? 6 GAS IL-15? + ? + 5 GAS gp140 family IL-3 (myeloid) − − + − 5 GAS (IRF1 > IFP >>Ly6) IL-5 (myeloid) − − + − 5 GAS GM-CSF (myeloid) − − + − 5 GAS Growthhormone family GH ? − + − 5 PRL ? +/− + − 1, 3, 5 EPO ? − + − 5 GAS(B-CAS > IRF1 = IFP >> Ly6) Receptor Tyrosine Kinases EGF ? + + − 1, 3GAS (IRF1) PDGF ? + + − 1, 3 CSF-1 ? + + − 1, 3 GAS (not IRF1)

To construct a synthetic GAS containing promoter element, which is usedin the Biological Assays described in Examples 27-28, a PCR basedstrategy is employed to generate a GAS-SV40 promoter sequence. The 5′primer contains four tandem copies of the GAS binding site found in theIRF1 promoter and previously demonstrated to bind STATs upon inductionwith a range of cytokines (Rothman et al., Immunity 1:457-468 (1994)),although other GAS or ISRE elements can be used instead. The 5′ primeralso contains 18 bp of sequence complementary to the SV40 early promotersequence and is flanked with an XhoI site. The sequence of the 5′ primeris: 5′:GCGCCTCGAGATTTCCCCGAAATCTAGATTTCCC (SEQ ID NO:3)CGAAATGATTTCCCCGAAATGATTTCCCCGAAATATC TGCCATCTCAATTAG:3′

The downstream primer is complementary to the SV40 promoter and isflanked with a Hind III site: 5′:GCGGCAAGCTTTTTGCAAAGCCTAGGC:3′ (SEQ IDNO:4)

PCR amplification is performed using the SV40 promoter template presentin the B-gal:promoter plasmid obtained from Clontech. The resulting PCRfragment is digested with XhoI/Hind III and subcloned into BLSK2−.(Stratagene.) Sequencing with forward and reverse primers confirms thatthe insert contains the following sequence:     5′:CTCGAGATTTCCCCGAAATCTAGATTTCC (SEQ ID NO:5)CCGAAATGATTTCCCCGAAATGATTTCCCCGAAATATCTGCCATCTCAATTAGTCAGCAACCATAGTCCCGCCCCTAACTCCGCCCATCCCGCCCCTAACTCCGCCCAGTTCCGCCCATTCTCCGCCCCATGGCTGACTAATTTTTTTTATTTATGCAGAGGCCGAGGCCGCCTCGGCCTCTGAGCTATTCCAGAAGTAGTGAGGAGGCTTTTTTGGAGGCC TAGGCTTTTGCAAAAAGCTT:3′

With this GAS promoter element linked to the SV40 promoter, a GAS:SEAP2reporter construct is next engineered. Here, the reporter molecule is asecreted alkaline phosphatase, or “SEAP.” Clearly, however, any reportermolecule can be instead of SEAP, in this or in any of the otherExamples. Well known reporter molecules that can be used instead of SEAPinclude chloramphenicol acetyltransferase (CAT), luciferase, alkalinephosphatase, B-galactosidase, green fluorescent protein (GFP), or anyprotein detectable by an antibody.

The above sequence confirmed synthetic GAS-SV40 promoter element issubcloned into the pSEAP-Promoter vector obtained from Clontech usingHindIII and XhoI, effectively replacing the SV40 promoter with theamplified GAS:SV40 promoter element, to create the GAS-SEAP vector.However, this vector does not contain a neomycin resistance gene, andtherefore, is not preferred for mammalian expression systems.

Thus, in order to generate mammalian stable cell lines expressing theGAS-SEAP reporter, the GAS-SEAP cassette is removed from the GAS-SEAPvector using SalI and NotI, and inserted into a backbone vectorcontaining the neomycin resistance gene, such as pGFP-1 (Clontech),using these restriction sites in the multiple cloning site, to createthe GAS-SEAP/Neo vector. Once this vector is transfected into mammaliancells, this vector can then be used as a reporter molecule for GASbinding as described in Examples 27-28.

Other constructs can be made using the above description and replacingGAS with a different promoter sequence. For example, construction ofreporter molecules containing EGR and NF-KB promoter sequences aredescribed in Example 29. However, many other promoters can besubstituted using the protocols described in this Example. For instance,SRE, IL-2, NFAT, or Osteocalcin promoters can be substituted, alone orin combination (e.g., GAS/NF-KB/EGR, GAS/NF-KB, Il-2/NFAT, orNF-KB/GAS). Similarly, other cell lines can be used to test reporterconstruct activity, such as HELA (epithelial), HUVEC (endothelial), Reh(B-cell), Saos-2 (osteoblast), HUVAC (aortic), or Cardiomyocyte.

Example 27 High-Throughput Screening Assay for T-Cell Activity

The following protocol is used to assess T-cell activity by identifyingfactors, and determining whether supernate containing a polypeptide ofthe invention proliferates and/or differentiates T-cells. T-cellactivity is assessed using the GAS/SEAP/Neo construct produced inExample 26. Thus, factors that increase SEAP activity indicate theability to activate the Jaks-STATS signal transduction pathway. TheT-cell used in this assay is Jurkat T-cells (ATCC Accession No.TIB-152), although Molt-3 cells (ATCC Accession No. CRL-1552) and Molt-4cells (ATCC Accession No. CRL-1582) cells can also be used.

Jurkat T-cells are lymphoblastic CD4+Th1 helper cells. In order togenerate stable cell lines, approximately 2 million Jurkat cells aretransfected with the GAS-SEAP/neo vector using DMRIE-C (LifeTechnologies)(transfection procedure described below). The transfectedcells are seeded to a density of approximately 20,000 cells per well andtransfectants resistant to 1 mg/ml genticin selected. Resistant coloniesare expanded and then tested for their response to increasingconcentrations of interferon gamma. The dose response of a selectedclone is demonstrated.

Specifically, the following protocol will yield sufficient cells for 75wells containing 200 ul of cells. Thus, it is either scaled up, orperformed in multiple to generate sufficient cells for multiple 96 wellplates. Jurkat cells are maintained in RPMI+10% serum with 1% Pen-Strep.Combine 2.5 mls of OPTI-MEM (Life Technologies) with 10 ug of plasmidDNA in a T25 flask. Add 2.5 ml OPTI-MEM containing 50 ul of DMRIE-C andincubate at room temperature for 15-45 mins.

During the incubation period, count cell concentration, spin down therequired number of cells (10⁷ per transfection), and resuspend inOPTI-MEM to a final concentration of 10⁷ cells/ml. Then add 1 ml of1×10⁷ cells in OPTI-MEM to T25 flask and incubate at 37 degree C. for 6hrs. After the incubation, add 10 ml of RPMI+15% serum.

The Jurkat: GAS-SEAP stable reporter lines are maintained in RPMI+10%serum, 1 mg/ml Genticin, and 1% Pen-Strep. These cells are treated withsupernatants containing polypeptide of the present invention orpolypeptide of the present invention induced polypeptides as produced bythe protocol described in Example 25.

On the day of treatment with the supernatant, the cells should be washedand resuspended in fresh RPMI+10% serum to a density of 500,000 cellsper ml. The exact number of cells required will depend on the number ofsupernatants being screened. For one 96 well plate, approximately 10million cells (for 10 plates, 100 million cells) are required.

Transfer the cells to a triangular reservoir boat, in order to dispensethe cells into a 96 well dish, using a 12 channel pipette. Using a 12channel pipette, transfer 200 ul of cells into each well (thereforeadding 100,000 cells per well).

After all the plates have been seeded, 50 ul of the supernatants aretransferred directly from the 96 well plate containing the supernatantsinto each well using a 12 channel pipette. In addition, a dose ofexogenous interferon gamma (0.1, 1.0, 10 ng) is added to wells H9, H10,and H11 to serve as additional positive controls for the assay.

The 96 well dishes containing Jurkat cells treated with supernatants areplaced in an incubator for 48 hrs (note: this time is variable between48-72 hrs). 35 ul samples from each well are then transferred to anopaque 96 well plate using a 12 channel pipette. The opaque platesshould be covered (using sellophene covers) and stored at −20 degree C.until SEAP assays are performed according to Example 30. The platescontaining the remaining treated cells are placed at 4 degree C. andserve as a source of material for repeating the assay on a specific wellif desired.

As a positive control, 100 Unit/ml interferon gamma can be used which isknown to activate Jurkat T cells. Over 30 fold induction is typicallyobserved in the positive control wells.

The above protocol may be used in the generation of both transient, aswell as, stable transfected cells, which would be apparent to those ofskill in the art.

Example 28 High-Throughput Screening Assay Identifying Myeloid Activity

The following protocol is used to assess myeloid activity of polypeptideof the present invention by determining whether polypeptide of thepresent invention proliferates and/or differentiates myeloid cells.Myeloid cell activity is assessed using the GAS/SEAP/Neo constructproduced in Example 26. Thus, factors that increase SEAP activityindicate the ability to activate the Jaks-STATS signal transductionpathway. The myeloid cell used in this assay is U937, a pre-monocytecell line, although TF-1, HL60, or KG1 can be used.

To transiently transfect U937 cells with the GAS/SEAP/Neo constructproduced in Example 26, a DEAE-Dextran method (Kharbanda et. al., 1994,Cell Growth & Differentiation, 5:259-265) is used. First, harvest 2×10⁷U937 cells and wash with PBS. The U937 cells are usually grown in RPMI1640 medium containing 10% heat-inactivated fetal bovine serum (FBS)supplemented with 100 units/ml penicillin and 100 mg/ml streptomycin.

Next, suspend the cells in 1 ml of 20 mM Tris-HCl (pH 7.4) buffercontaining 0.5 mg/ml DEAE-Dextran, 8 ug GAS-SEAP2 plasmid DNA, 140 mMNaCl, 5 mM KCl, 375 uM Na₂HPO₄.7H₂O, 1 mM MgCl₂, and 675 uM CaC₁₂.Incubate at 37 degrees C. for 45 min.

Wash the cells with RPMI 1640 medium containing 10% FBS and thenresuspend in 10 ml complete medium and incubate at 37 degree C. for 36hr.

The GAS-SEAP/U937 stable cells are obtained by growing the cells in 400ug/ml G418. The G418-free medium is used for routine growth but everyone to two months, the cells should be re-grown in 400 ug/ml G418 forcouple of passages.

These cells are tested by harvesting 1×10⁸ cells (this is enough for ten96-well plates assay) and wash with PBS. Suspend the cells in 200 mlabove described growth medium, with a final density of 5×10⁵ cells/ml.Plate 200 ul cells per well in the 96-well plate (or 1×10⁵ cells/well).

Add 50 ul of the supernatant prepared by the protocol described inExample 25. Incubate at 37 degee C for 48 to 72 hr. As a positivecontrol, 100 Unit/ml interferon gamma can be used which is known toactivate U937 cells. Over 30 fold induction is typically observed in thepositive control wells. SEAP assay the supernatant according to theprotocol described in Example 30.

Example 29 High-Throughput Screening Assay for T-Cell Activity

NF-KB (Nuclear Factor KB) is a transcription factor activated by a widevariety of agents including the inflammatory cytokines IL-1 and TNF,CD30 and CD40, lymphotoxin-alpha and lymphotoxin-beta, by exposure toLPS or thrombin, and by expression of certain viral gene products. As atranscription factor, NF-KB regulates the expression of genes involvedin immune cell activation, control of apoptosis (NF-KB appears to shieldcells from apoptosis), B and T-cell development, anti-viral andantimicrobial responses, and multiple stress responses.

In non-stimulated conditions, NF-KB is retained in the cytoplasm withI-KB (Inhibitor KB). However, upon stimulation, I-KB is phosphorylatedand degraded, causing NF-KB to shuttle to the nucleus, therebyactivating transcription of target genes. Target genes activated byNF-KB include IL-2, IL-6, GM-CSF, ICAM-1 and class 1 MHC.

Due to its central role and ability to respond to a range of stimuli,reporter constructs utilizing the NF-KB promoter element are used toscreen the supernatants produced in Example 25. Activators or inhibitorsof NF-KB would be useful in detecting, preventing, diagnosing,prognosticating, treating, and/or ameliorating diseases. For example,inhibitors of NF-KB could be used to treat those diseases related to theacute or chronic activation of NF-KB, such as rheumatoid arthritis.

To construct a vector containing the NF-KB promoter element, a PCR basedstrategy is employed. The upstream primer contains four tandem copies ofthe NF-KB binding site (GGGGACTTTCCC) (SEQ ID NO: 8), 18 bp of sequencecomplementary to the 5′ end of the SV40 early promoter sequence, and isflanked with an XhoI site:      5′:GCGGCCTCGAGGGGACTTTCCCGGGGACT (SEQ IDNO:9) TTCCGGGGACTTTCCGGGACTTTCCATCCTGCCATCT CAATTAG:3′

The downstream primer is complementary to the 3′ end of the SV40promoter and is flanked with a Hind III site:5′:GCGGCAAGCTTTTTGCAAAGCCTAGGC:3′ (SEQ ID NO:4)

PCR amplification is performed using the SV40 promoter template presentin the pB-gal:promoter plasmid obtained from Clontech. The resulting PCRfragment is digested with XhoI and Hind III and subcloned into BLSK2−.(Stratagene) Sequencing with the T7 and T3 primers confirms the insertcontains the following sequence: (SEQ ID NO:10)     5′:CTCGAGGGGACTTTCCCGGGGACTTTCCGGGGACTTTCCGGGACTTTCCATGTGCCATCTCAATTAGTCAGCAACCATAGTCGCGCCCCTAACTCCGCCCATCCCGCCCCTAACTCCGCCCAGTTCCGCCCATTCTCCGCCCCATGGCTGACTAATTTTTTTTATTTATGCAGAGGCCGAGGCCGCCTCGGCCTCTGAGCTATTCCAGAAGTAGTGAGGAGGCTTTTTTGGAGGCCTAGGCTTTTGCAAAA AGCTT:3′

Next, replace the SV40 minimal promoter element present in thepSEAP2-promoter plasmid (Clontech) with this NF-KB/SV40 fragment usingXhoI and HindIII. However, this vector does not contain a neomycinresistance gene, and therefore, is not preferred for mammalianexpression systems.

In order to generate stable mammalian cell lines, the NF-KB/SV40/SEAPcassette is removed from the above NF-KB/SEAP vector using restrictionenzymes SalI and NotI, and inserted into a vector containing neomycinresistance. Particularly, the NF-KB/SV40/SEAP cassette was inserted intopGFP-1 (Clontech), replacing the GFP gene, after restricting pGFP-1 withSalI and NotI.

Once NF-KB/SV40/SEAP/Neo vector is created, stable Jurkat T-cells arecreated and maintained according to the protocol described in Example27. Similarly, the method for assaying supernatants with these stableJurkat T-cells is also described in Example 27. As a positive control,exogenous TNF alpha (0.1, 1, 10 ng) is added to wells H9, H10, and H11,with a 5-10 fold activation typically observed. CL Example 30

Assay for SEAP Activity

As a reporter molecule for the assays described in Examples 27-29, SEAPactivity is assayed using the Tropix Phospho-light Kit (Cat. BP-400)according to the following general procedure. The Tropix Phospho-lightKit supplies the Dilution, Assay, and Reaction Buffers used below.

Prime a dispenser with the 2.5× Dilution Buffer and dispense 15 ul of2.5× dilution buffer into Optiplates containing 35 ul of a supernatant.Seal the plates with a plastic sealer and incubate at 65 degree C. for30 min. Separate the Optiplates to avoid uneven heating.

Cool the samples to room temperature for 15 minutes. Empty the dispenserand prime with the Assay Buffer. Add 50 ml Assay Buffer and incubate atroom temperature 5 min. Empty the dispenser and prime with the ReactionBuffer (see the Table below). Add 50 ul Reaction Buffer and incubate atroom temperature for 20 minutes. Since the intensity of thechemiluminescent signal is time dependent, and it takes about 10 minutesto read 5 plates on a luminometer, thus one should treat 5 plates ateach time and start the second set 10 minutes later.

Read the relative light unit in the luminometer. Set H12 as blank, andprint the results. An increase in chemiluminescence indicates reporteractivity. Reaction Buffer Formulation: # of plates Rxn buffer diluent(ml) CSPD (ml) 10 60 3 11 65 3.25 12 70 3.5 13 75 3.75 14 80 4 15 854.25 16 90 4.5 17 95 4.75 18 100 5 19 105 5.25 20 110 5.5 21 115 5.75 22120 6 23 125 6.25 24 130 6.5 25 135 6.75 26 140 7 27 145 7.25 28 150 7.529 155 7.75 30 160 8 31 165 8.25 32 170 8.5 33 175 8.75 34 180 9 35 1859.25 36 190 9.5 37 195 9.75 38 200 10 39 205 10.25 40 210 10.5 41 21510.75 42 220 11 43 225 11.25 44 230 11.5 45 235 11.75 46 240 12 47 24512.25 48 250 12.5 49 255 12.75 50 260 13

Example 31 High-Throughput Screening Assay Identifying Changes in SmallMolecule Concentration and Membrane Permeability

Binding of a ligand to a receptor is known to alter intracellular levelsof small molecules, such as calcium, potassium, sodium, and pH, as wellas alter membrane potential. These alterations can be measured in anassay to identify supernatants which bind to receptors of a particularcell. Although the following protocol describes an assay for calcium,this protocol can easily be modified to detect changes in potassium,sodium, pH, membrane potential, or any other small molecule which isdetectable by a fluorescent probe.

The following assay uses Fluorometric Imaging Plate Reader (“FLIPR”) tomeasure changes in fluorescent molecules (Molecular Probes) that bindsmall molecules. Clearly, any fluorescent molecule detecting a smallmolecule can be used instead of the calcium fluorescent molecule, fluo-4(Molecular Probes, Inc.; catalog no. F-14202), used here.

For adherent cells, seed the cells at 10,000 cells/well in a Co-starblack 96-well plate with clear bottom. The plate is incubated in a CO₂incubator for 20 hours. The adherent cells are washed two times inBiotek washer with 200 ul of HBSS (Hank's Balanced Salt Solution)leaving 100 ul of buffer after the final wash.

A stock solution of 1 mg/ml fluo-4 is made in 10% pluronic acid DMSO. Toload the cells with fluo-4, 50 ul of 12 ug/ml fluo-4 is added to eachwell. The plate is incubated at 37 degrees C. in a CO₂ incubator for 60min. The plate is washed four times in the Biotek washer with HBSSleaving 100 ul of buffer.

For non-adherent cells, the cells are spun down from culture media.Cells are re-suspended to 2-5×10⁶ cells/ml with HBSS in a 50-ml conicaltube. 4 ul of 1 mg/ml fluo-4 solution in 10% pluronic acid DMSO is addedto each ml of cell suspension. The tube is then placed in a 37 degreesC. water bath for 30-60 min. The cells are washed twice with HBSS,resuspended to 1×10⁶ cells/ml, and dispensed into a microplate, 100ul/well. The plate is centrifuged at 1000 rpm for 5 min. The plate isthen washed once in Denley Cell Wash with 200 ul, followed by anaspiration step to 100 ul final volume.

For a non-cell based assay, each well contains a fluorescent molecule,such as fluo-4. The supernatant is added to the well, and a change influorescence is detected.

To measure the fluorescence of intracellular calcium, the FLIPR is setfor the following parameters: (1) System gain is 300-800 mW; (2)Exposure time is 0.4 second; (3) Camera F/stop is F/2; (4) Excitation is488 nm; (5) Emission is 530 nm; and (6) Sample addition is 50 ul.Increased emission at 530 nm indicates an extracellular signaling eventcaused by the a molecule, either polypeptide of the present invention ora molecule induced by polypeptide of the present invention, which hasresulted in an increase in the intracellular Ca++concentration.

Example 32 High-Throughput Screening Assay Identifying Tyrosine KinaseActivity

The Protein Tyrosine Kinases (PTK) represent a diverse group oftransmembrane and cytoplasmic kinases. Within the Receptor ProteinTyrosine Kinase RPTK) group are receptors for a range of mitogenic andmetabolic growth factors including the PDGF, FGF, EGF, NGF, HGF andInsulin receptor subfarnilies. In addition there are a large family ofRPTKs for which the corresponding ligand is unknown. Ligands for RPTKsinclude mainly secreted small proteins, but also membrane-bound andextracellular matrix proteins.

Activation of RPTK by ligands involves ligand-mediated receptordimerization, resulting in transphosphorylation of the receptor subunitsand activation of the cytoplasmic tyrosine kinases. The cytoplasmictyrosine kinases include receptor associated tyrosine kinases of thesrc-family (e.g., src, yes, lck, lyn, fyn) and non-receptor linked andcytosolic protein tyrosine kinases, such as the Jak family, members ofwhich mediate signal transduction triggered by the cytokine superfamilyof receptors (e.g., the Interleukins, Interferons, GM-CSF, and Leptin).

Because of the wide range of known factors capable of stimulatingtyrosine kinase activity, identifying whether polypeptide of the presentinvention or a molecule induced by polypeptide of the present inventionis capable of activating tyrosine kinase signal transduction pathways isof interest. Therefore, the following protocol is designed to identifysuch molecules capable of activating the tyrosine kinase signaltransduction pathways.

Seed target cells (e.g., primary keratinocytes) at a density ofapproximately 25,000 cells per well in a 96 well Loprodyne Silent ScreenPlates purchased from Nalge Nunc (Naperville, Ill.). The plates aresterilized with two 30 minute rinses with 100% ethanol, rinsed withwater and dried overnight. Some plates are coated for 2 hr with 100 mlof cell culture grade type I collagen (50 mg/ml), gelatin (2%) orpolylysine (50 mg/ml), all of which can be purchased from SigmaChemicals (St. Louis, Mo.) or 10% Matrigel purchased from BectonDickinson (Bedford, Mass.), or calf serum, rinsed with PBS and stored at4 degree C. Cell growth on these plates is assayed by seeding 5,000cells/well in growth medium and indirect quantitation of cell numberthrough use of alamarBlue as described by the manufacturer AlamarBiosciences, Inc. (Sacramento, Calif.) after 48 hr. Falcon plate covers#3071 from Becton Dickinson (Bedford, Mass.) are used to cover theLoprodyne Silent Screen Plates. Falcon Microtest III cell culture platescan also be used in some proliferation experiments.

To prepare extracts, A431 cells are seeded onto the nylon membranes ofLoprodyne plates (20,000/200 ml/well) and cultured overnight in completemedium. Cells are quiesced by incubation in serum-free basal medium for24 hr. After 5-20 minutes treatment with EGF (60 ng/ml) or 50 ul of thesupernatant produced in Example 25, the medium was removed and 100 ml ofextraction buffer ((20 mM HEPES pH 7.5, 0.15 M NaCl, 1% Triton X-100,0.1% SDS, 2 mM Na3VO4, 2 mM Na4P2O7 and a cocktail of proteaseinhibitors (# 1836170) obtained from Boeheringer Mannheim (Indianapolis,Ind.)) is added to each well and the plate is shaken on a rotatingshaker for 5 minutes at 4° C. The plate is then placed in a vacuumtransfer manifold and the extract filtered through the 0.45 mm membranebottoms of each well using house vacuum. Extracts are collected in a96-well catch/assay plate in the bottom of the vacuum manifold andimmediately placed on ice. To obtain extracts clarified bycentrifugation, the content of each well, after detergent solubilizationfor 5 minutes, is removed and centrifuged for 15 minutes at 4 degree Cat16,000×g.

Test the filtered extracts for levels of tyrosine kinase activity.Although many methods of detecting tyrosine kinase activity are known,one method is described here.

Generally, the tyrosine kinase activity of a supernatant is evaluated bydetermining its ability to phosphorylate a tyrosine residue on aspecific substrate (a biotinylated peptide). Biotinylated peptides thatcan be used for this purpose include PSK1 (corresponding to amino acids6-20 of the cell division kinase cdc2-p34) and PSK2 (corresponding toamino acids 1-17 of gastrin). Both peptides are substrates for a rangeof tyrosine kinases and are available from Boehringer Mannheim.

The tyrosine kinase reaction is set up by adding the followingcomponents in order. First, add 10 ul of 5 uM Biotinylated Peptide, then10 ul ATP/Mg₂₊ (5 mM ATP/50 mM MgCl₂), then 10 ul of 5× Assay Buffer (40mM imidazole hydrochloride, pH7.3, 40 mM beta-glycerophosphate, 1 mMEGTA, 100 mM MgCl₂, 5 mM MnCl₂, 0.5 mg/ml BSA), then 5 ul of SodiumVanadate (1 mM), and then 5 ul of water. Mix the components gently andpreincubate the reaction mix at 30 degree C. for 2 min. Initial thereaction by adding 10 ul of the control enzyme or the filteredsupernatant.

The tyrosine kinase assay reaction is then terminated by adding 10 ul of120 mm EDTA and place the reactions on ice.

Tyrosine kinase activity is determined by transferring 50 ul aliquot ofreaction mixture to a microtiter plate (MTP) module and incubating at 37degree C. for 20 min. This allows the streptavidin coated 96 well plateto associate with the biotinylated peptide. Wash the MTP module with 300ul/well of PBS four times. Next add 75 ul of anti-phospotyrosineantibody conjugated to horse radish peroxidase (anti-P-Tyr-POD(0.5u/ml))to each well and incubate at 37 degree C. for one hour. Wash the well asabove.

Next add 100 ul of peroxidase substrate solution (Boehringer Mannheim)and incubate at room temperature for at least 5 mins (up to 30 min).Measure the absorbance of the sample at 405 nm by using ELISA reader.The level of bound peroxidase activity is quantitated using an ELISAreader and reflects the level of tyrosine kinase activity.

Example 33 High-Throughput Screening Assay Identifying PhosphorylationActivity

As a potential alternative and/or complement to the assay of proteintyrosine kinase activity described in Example 32, an assay which detectsactivation (phosphorylation) of major intracellular signal transductionintermediates can also be used. For example, as described below oneparticular assay can detect tyrosine phosphorylation of the Erk-1 andErk-2 kinases. However, phosphorylation of other molecules, such as Raf,JNK, p38 MAP, Map kinase kinase (MEK), MEK kinase, Src, Muscle specifickinase (MuSK), IRAK, Tec, and Janus, as well as any other phosphoserine,phosphotyrosine, or phosphothreonine molecule, can be detected bysubstituting these molecules for Erk-1 or Erk-2 in the following assay.

Specifically, assay plates are made by coating the wells of a 96-wellELISA plate with 0.1 ml of protein G (1 ug/ml) for 2 hr at room temp,(RT). The plates are then rinsed with PBS and blocked with 3% BSA/PBSfor 1 hr at RT. The protein G plates are then treated with 2 commercialmonoclonal antibodies (100 ng/well) against Erk-1 and Erk-2 (1 hr at RT)(Santa Cruz Biotechnology). (To detect other molecules, this step caneasily be modified by substituting a monoclonal antibody detecting anyof the above described molecules.) After 3-5 rinses with PBS, the platesare stored at 4 degree C. until use.

A431 cells are seeded at 20,000/well in a 96-well Loprodyne filterplateand cultured overnight in growth medium. The cells are then starved for48 hr in basal medium (DMEM) and then treated with EGF (6 ng/well) or 50ul of the supernatants obtained in Example 25 for 5-20 minutes. Thecells are then solubilized and extracts filtered directly into the assayplate.

After incubation with the extract for 1 hr at RT, the wells are againrinsed. As a positive control, a commercial preparation of MAP kinase(10 ng/well) is used in place of A431 extract. Plates are then treatedwith a commercial polyclonal (rabbit) antibody (1 ug/ml) whichspecifically recognizes the phosphorylated epitope of the Erk-1 andErk-2 kinases (1 hr at RT). This antibody is biotinylated by standardprocedures. The bound polyclonal antibody is then quantitated bysuccessive incubations with Europium-streptavidin and Europiumfluorescence enhancing reagent in the Wallac DELFIA instrument(time-resolved fluorescence). An increased fluorescent signal overbackground indicates a phosphorylation by polypeptide of the presentinvention or a molecule induced by polypeptide of the present invention.

Example 34 Assay for the Stimulation of Bone Marrow CD34+ CellProliferation

This assay is based on the ability of human CD34+ to proliferate in thepresence of hematopoietic growth factors and evaluates the ability ofisolated polypeptides expressed in mammalian cells to stimulateproliferation of CD34+ cells.

It has been previously shown that most mature precursors will respond toonly a single signal. More immature precursors require at least twosignals to respond. Therefore, to test the effect of polypeptides onhematopoietic activity of a wide range of progenitor cells, the assaycontains a given polypeptide in the presence or absence of otherhematopoietic growth factors. Isolated cells are cultured for 5 days inthe presence of Stem Cell Factor (SCF) in combination with testedsample. SCF alone has a very limited effect on the proliferation of bonemarrow (BM) cells, acting in such conditions only as a “survival”factor. However, combined with any factor exhibiting stimulatory effecton these cells (e.g., IL-3), SCF will cause a synergistic effect.Therefore, if the tested polypeptide has a stimulatory effect onhematopoietic progenitors, such activity can be easily detected. Sincenormal BM cells have a low level of cycling cells, it is likely that anyinhibitory effect of a given polypeptide, or agonists or antagoniststhereof, might not be detected. Accordingly, assays for an inhibitoryeffect on progenitors is preferably tested in cells that are firstsubjected to in vitro stimulation with SCF+IL+3, and then contacted withthe compound that is being evaluated for inhibition of such inducedproliferation.

Briefly, CD34+ cells are isolated using methods known in the art. Thecells are thawed and resuspended in medium (QBSF 60 serum-free mediumwith 1% L-glutamine (500 ml) Quality Biological, Inc., Gaithersburg, Md.Cat# 160-204-101). After several gentle centrifugation steps at 200×g,cells are allowed to rest for one hour. The cell count is adjusted to2.5×10⁵ cells/ml. During this time, 100 μl of sterile water is added tothe peripheral wells of a 96-well plate. The cytokines that can betested with a given polypeptide in this assay is rhSCF (R&D Systems,Minneapolis, Minn., Cat# 255-SC) at 50 ng/ml alone and in combinationwith rhSCF and rhIL-3 (R&D Systems, Minneapolis, Minn., Cat# 203-ML) at30 ng/ml. After one hour, 10 μl of prepared cytokines, 50 μl of thesupernatants prepared in Example 25 (supernatants at 1:2 dilution=50 μl)and 20 μl of diluted cells are added to the media which is alreadypresent in the wells to allow for a final total volume of 100 μl. Theplates are then placed in a 37° C./5% CO₂ incubator for five days.

Eighteen hours before the assay is harvested, 0.5 μCi/well of [3H]Thymidine is added in a 10 μl volume to each well to determine theproliferation rate. The experiment is terminated by harvesting the cellsfrom each 96-well plate to a filtermat using the Tomtec Harvester 96.After harvesting, the filtermats are dried, trimmed and placed intoOmniFilter assemblies consisting of one OmniFilter plate and oneOmniFilter Tray. 60 μl Microscint is added to each well and the platesealed with TopSeal-A press-on sealing film A bar code 15 sticker isaffixed to the first plate for counting. The sealed plates are thenloaded and the level of radioactivity determined via the Packard TopCount and the printed data collected for analysis. The level ofradioactivity reflects the amount of cell proliferation.

The studies described in this example test the activity of a givenpolypeptide to stimulate bone marrow CD34+ cell proliferation. Oneskilled in the art could easily modify the exemplified studies to testthe activity of polynucleotides (e.g., gene therapy), antibodies,agonists, and/or antagonists and fragments and variants thereof. As anonlimiting example, potential antagonists tested in this assay would beexpected to inhibit cell proliferation in the presence of cytokinesand/or to increase the inhibition of cell proliferation in the presenceof cytokines and a given polypeptide. In contrast, potential agoniststested in this assay would be expected to enhance cell proliferationand/or to decrease the inhibition of cell proliferation in the presenceof cytokines and a given polypeptide.

The ability of a gene to stimulate the proliferation of bone marrowCD34+ cells indicates that polynucleotides and polypeptidescorresponding to the gene are useful for the detection, prevention,diagnosis, prognostication, treatment, and/or amelioration of disordersaffecting the immune system and hematopoiesis. Representative uses aredescribed in the “Immune Activity” and “Infectious Disease” sectionsabove, and elsewhere herein.

Example 35 Cellular Adhesion Molecule (CAM) Expression on EndothelialCells

The recruitment of lymphocytes to areas of inflammation and angiogenesisinvolves specific receptor-ligand interactions between cell surfaceadhesion molecules (CAMs) on lymphocytes and the vascular endothelium.The adhesion process, in both normal and pathological settings, followsa multi-step cascade that involves intercellular adhesion molecule-1(ICAM-1), vascular cell adhesion molecule-1 (VCAM-1), and endothelialleukocyte adhesion molecule-1 (E-selectin) expression on endothelialcells (EC). The expression of these molecules and others on the vascularendothelium determines the efficiency with which leukocytes may adhereto the local vasculature and extravasate into the local tissue duringthe development of an inflammatory response. The local concentration ofcytokines and growth factor participate in the modulation of theexpression of these CAMs.

Briefly, endothelial cells (e.g., Human Umbilical Vein Endothelial cells(HUVECs)) are grown in a standard 96 well plate to confluence, growthmedium is removed from the cells and replaced with 100 μl of 199 Medium(10% fetal bovine serum (FBS)). Samples for testing and positive ornegative controls are added to the plate in triplicate (in 10 μlvolumes). Plates are then incubated at 37° C. for either 5 h (selectinand integrin expression) or 24 h (integrin expression only). Plates areaspirated to remove medium and 100 μl of 0.1% paraformaldehyde-PBS (withCa++ and Mg++) is added to each well. Plates are held at 4° C. for 30min. Fixative is removed from the wells and wells are washed 1× withPBS(+Ca,Mg)+0.5% BSA and drained. 10 μl of diluted primary antibody isadded to the test and control wells. Anti-ICAM-1-Biotin,Anti-VCAM-1-Biotin and Anti-E-selectin-Biotin are used at aconcentration of 10 μg/ml (1:10 dilution of 0.1 mg/ml stock antibody).Cells are incubated at 37° C. for 30 min. in a humidified environment.Wells are washed three times with PBS(+Ca,Mg)+0.5% BSA. 20 μl of dilutedExtrAvidin-Alkaline Phosphatase (1:5,000 dilution, referred to herein asthe working dilution) are added to each well and incubated at 37° C. for30 min. Wells are washed three times with PBS(+Ca,Mg)+0.5% BSA. Dissolve1 tablet of p-Nitrophenol Phosphate pNPP per 5 ml of glycine buffer (pH10.4). 100 μl of pNPP substrate in glycine buffer is added to each testwell. Standard wells in triplicate are prepared from the workingdilution of the ExtrAvidin-Alkaline Phosphotase in glycine buffer:1:5,000 (10⁰)>10^(−0.5)>10⁻¹>10^(−1.5). 5 μl of each dilution is addedto triplicate wells and the resulting AP content in each well is 5.50ng, 1.74 ng, 0.55 ng, 0.18 ng. 100 μl of pNNP reagent is then added toeach of the standard wells. The plate is incubated at 37° C. for 4 h. Avolume of 50 μl of 3M NaOH is added to all wells. The plate is read on aplate reader at 405 nm using the background subtraction option on blankwells filled with glycine buffer only. Additionally, the template is setup to indicate the concentration of AP-conjugate in each standard well[5.50 ng; 1.74 ng; 0.55 ng; 0.18 ng]. Results are indicated as amount ofbound AP-conjugate in each sample.

Example 36 Alamar Blue Endothelial Cells Proliferation Assay

This assay may be used to quantitatively determine protein mediatedinhibition of bFGF-induced proliferation of Bovine Lymphatic EndothelialCells (LECs), Bovine Aortic Endothelial Cells (BAECs) or HumanMicrovascular Uterine Myometrial Cells (UTMECs). This assay incorporatesa fluorometric growth indicator based on detection of metabolicactivity. A standard Alamar Blue Proliferation Assay is prepared inEGM-2MV with 10 ng/ml of bFGF added as a source of endothelial cellstimulation. This assay may be used with a variety of endothelial cellswith slight changes in growth medium and cell concentration. Dilutionsof the protein batches to be tested are diluted as appropriate.Serum-free medium (GIBCO SFM) without bFGF is used as a non-stimulatedcontrol and Angiostatin or TSP-1 are included as a known inhibitorycontrols.

Briefly, LEC, BAECs or UTMECs are seeded in growth media at a density of5000 to 2000 cells/well in a 96 well plate and placed at 37 degrees C.overnight. After the overnight incubation of the cells, the growth mediais removed and replaced with GIBCO EC-SFM. The cells are treated withthe appropriate dilutions of the protein of interest or control proteinsample(s) (prepared in SFM) in triplicate wells with additional bFGF toa concentration of 10 ng/ml. Once the cells have been treated with thesamples, the plate(s) is/are placed back in the 37° C. incubator forthree days. After three days 10 ml of stock alamar blue (Biosource Cat#DALI1100) is added to each well and the plate(s) is/are placed back inthe 37° C. incubator for four hours. The plate(s) are then read at 530nm excitation and 590 nm emission using the CytoFluor fluorescencereader. Direct output is recorded in relative fluorescence units.

Alamar blue is an oxidation-reduction indicator that both fluoresces andchanges color in response to chemical reduction of growth mediumresulting from cell growth. As cells grow in culture, innate metabolicactivity results in a chemical reduction of the immediate surroundingenvironment. Reduction related to growth causes the indicator to changefrom oxidized (non-fluorescent blue) form to reduced (fluorescent red)form (i.e., stimulated proliferation will produce a stronger signal andinhibited proliferation will produce a weaker signal and the totalsignal is proportional to the total number of cells as well as theirmetabolic activity). The background level of activity is observed withthe starvation medium alone. This is compared to the output observedfrom the positive control samples (bFGF in growth medium) and proteindilutions.

Example 37 Detection of Inhibition of a Mixed Lymphocyte Reaction

This assay can be used to detect and evaluate inhibition of a MixedLymphocyte Reaction (MLR) by gene products (e.g., isolatedpolypeptides). Inhibition of a MLR may be due to a direct effect on cellproliferation and viability, modulation of costimulatory molecules oninteracting cells, modulation of adhesiveness between lymphocytes andaccessory cells, or modulation of cytokine production by accessorycells. Multiple cells may be targeted by these polypeptides since theperipheral blood mononuclear fraction used in this assay includes T, Band natural killer lymphocytes, as well as monocytes and dendriticcells.

Polypeptides of interest found to inhibit the MLR may find applicationin diseases associated with lymphocyte and monocyte activation orproliferation. These include, but are not limited to, diseases such asasthma, arthritis, diabetes, inflammatory skin conditions, psoriasis,eczema, systemic lupus erythematosus, multiple sclerosis,glomerulonephritis, inflammatory bowel disease, crohn's disease,ulcerative colitis, arteriosclerosis, cirrhosis, graft vs. host disease,host vs. graft disease, hepatitis, leukemia and lymphoma.

Briefly, PBMCs from human donors are purified by density gradientcentrifugation using Lymphocyte Separation Medium (LSM®, density 1.0770g/ml, Organon Teknika Corporation, West Chester, Pa.). PBMCs from twodonors are adjusted to 2×10⁶ cells/ml in RPMI-1640 (Life Technologies,Grand Island, N.Y.) supplemented with 10% FCS and 2 mM glutamine. PBMCsfrom a third donor is adjusted to 2×10⁵ cells/ml. Fifty microliters ofPBMCs from each donor is added to wells of a 96-well round bottommicrotiter plate. Dilutions of test materials (50 μl) is added intriplicate to microtiter wells. Test samples (of the protein ofinterest) are added for final dilution of 1:4; rhuIL-2 (R&D Systems,Minneapolis, Minn., catalog number 202-IL) is added to a finalconcentration of 1 μg/ml; anti-CD4 mAb (R&D Systems, clone 34930.11,catalog number MAB379) is added to a final concentration of 10 μg/ml.Cells are cultured for 7-8 days at 37° C. in 5% CO₂, and 1 μC of [³H]thymidine is added to wells for the last 16 hrs of culture. Cells areharvested and thymidine incorporation determined using a PackardTopCount. Data is expressed as the mean and standard deviation oftriplicate determinations.

Samples of the protein of interest are screened in separate experimentsand compared to the negative control treatment, anti-CD4 mAb, whichinhibits proliferation of lymphocytes and the positive controltreatment, IL-2 (either as recombinant material or supernatant), whichenhances proliferation of lymphocytes.

One skilled in the art could easily modify the exemplified studies totest the activity of polynucleotides (e.g., gene therapy), antibodies,agonists, and/or antagonists and fragments and variants thereof.

Example 38 Assays for Protease Activity

The following assay may be used to assess protease activity of thepolypeptides of the invention.

Gelatin and casein zymography are performed essentially as described(Heusen et al., Anal. Biochem., 102:196-202 (1980); Wilson et al.,Journal of Urology, 149:653-658 (1993)). Samples are run on 10%polyacryamide/0.1% SDS gels containing 1% gelain orcasein, soaked in2.5% triton at room temperature for 1 hour, and in 0.1M glycine, pH 8.3at 37° C. 5 to 16 hours. After staining in amido black areas ofproteolysis apear as clear areas agains the blue-black background.Trypsin (Sigma T8642) is used as a positive control.

Protease activity is also determined by monitoring the cleavage ofn-a-benzoyl-L-arginine ethyl ester (BAEE) (Sigma B-4500. Reactions areset up in (25 mMNaPO₄, 1 mM EDTA, and 1 mM BAEE), pH 7.5. Samples areadded and the change in adsorbance at 260 nm is monitored on the BeckmanDU-6 spectrophotometer in the time-drive mode. Trypsin is used as apositive control.

Additional assays based upon the release of acid-soluble peptides fromcasein or hemoglobin measured as adsorbance at 280 nm orcolorimetrically using the Folin method are performed as described inBergmeyer, et al., Methods of Enzymatic Analysis, 5 (1984). Other assaysinvolve the solubilization of chromogenic substrates (Ward, AppliedScience, 251-317 (1983)).

Example 39 Identifying Serine Protease Substrate Specificity

Methods known in the art or described herein may be used to determinethe substrate specificity of the polypeptides of the present inventionhaving serine protease activity. A preferred method of determiningsubstrate specificity is by the use of positional scanning syntheticcombinatorial libraries as described in GB 2 324 529 (incorporatedherein in its entirety).

Example 40 Ligand Binding Assays

The following assay may be used to assess ligand binding activity of thepolypeptides of the invention.

Ligand binding assays provide a direct method for ascertaining receptorpharmacology and are adaptable to a high throughput format. The purifiedligand for a polypeptide is radiolabeled to high specific activity(50-2000 Ci/mmol) for binding studies. A determination is then made thatthe process of radiolabeling does not diminish the activity of theligand towards its polypeptide. Assay conditions for buffers, ions, pHand other modulators such as nucleotides are optimized to establish aworkable signal to noise ratio for both membrane and whole cellpolypeptide sources. For these assays, specific polypeptide binding isdefined as total associated radioactivity minus the radioactivitymeasured in the presence of an excess of unlabeled competing ligand.Where possible, more than one competing ligand is used to defineresidual nonspecific binding.

Example 41 Functional Assay in Xenopus Oocytes

Capped RNA transcripts from linearized plasmid templates encoding thepolypeptides of the invention are synthesized in vitro with RNApolymerases in accordance with standard procedures. In vitro transcriptsare suspended in water at a final concentration of 0.2 mg/ml. Ovarianlobes are removed from adult female toads, Stage V defolliculatedoocytes are obtained, and RNA transcripts (10 ng/oocytc) are injected ina 50 nl bolus using a microinjection apparatus. Two electrode voltageclamps are used to measure the currents from individual Xenopus oocytesin response polypeptides and polypeptide agonist exposure. Recordingsare made in Ca2+ free Barth's medium at room temperature. The Xenopussystem can be used to screen known ligands and tissue/cell extracts foractivating ligands.

Example 42 Microphysiometric Assays

Activation of a wide variety of secondary messenger systems results inextrusion of small amounts of acid from a cell. The acid formed islargely as a result of the increased metabolic activity required to fuelthe intracellular signaling process. The pH changes in the mediasurrounding the cell are very small but are detectable by the CYTOSENSORmicrophysiometer (Molecular Devices Ltd., Menlo Park, Calif.). TheCYTOSENSOR is thus capable of detecting the activation of polypeptidewhich is coupled to an energy utilizing intracellular signaling pathway.

Example 43 Extract/Cell Supernatant Screening

A large number of mammalian receptors exist for which there remains, asyet, no cognate activating ligand (agonist). Thus, active ligands forthese receptors may not be included within the ligands banks asidentified to date. Accordingly, the polypeptides of the invention canalso be functionally screened (using calcium, cAMP, microphysiometer,oocyte electrophysiology, etc., functional screens) against tissueextracts to identify its natural ligands. Extracts that produce positivefunctional responses can be sequentially subfractionated until anactivating ligand is isolated and identified.

Example 44 Calcium and cAMP Functional Assays

Seven transmembrane receptors which are expressed in HEK 293 cells havebeen shown to be coupled functionally to activation of PLC and calciummobilization and/or cAMP stimulation or inhibition. Basal calcium levelsin the HEK 293 cells in receptor-transfected or vector control cellswere observed to be in the normal, 100 nM to 200 nM, range. HEK 293cells expressing recombinant receptors are loaded with fura 2 and in asingle day >150 selected ligands or tissue/cell extracts are evaluatedfor agonist induced calcium mobilization. Similarly, HEK 293 cellsexpressing recombinant receptors are evaluated for the stimulation orinhibition of cAMP production using standard cAMP quantitation assays.Agonists presenting a calcium transient or cAMP fluctuation are testedin vector control cells to determine if the response is unique to thetransfected cells expressing receptor.

Example 45 ATP-Binding Assay

The following assay may be used to assess ATP-binding activity ofpolypeptides of the invention.

ATP-binding activity of the polypeptides of the invention may bedetected using the ATP-binding assay described in U.S. Pat. No.5,858,719, which is herein incorporated by reference in its entirety.Briefly, ATP-binding to polypeptides of the invention is measured viaphotoaffinity labeling with 8-azido-ATP in a competition assay. Reactionmixtures containing 1 mg/ml of the ABC transport protein of the presentinvention are incubated with varying concentrations of ATP, or thenon-hydrolyzable ATP analog adenyl-5′-imidodiphosphate for 10 minutes at4° C. A mixture of 8-azido-ATP (Sigma Chem. Corp., St. Louis, Mo.) plus8-azido-ATP (³²P-ATP) (5 mCi/μmol, ICN, Irvine Calif.) is added to afinal concentration of 100 μM and 0.5 ml aliquots are placed in thewells of a porcelain spot plate on ice. The plate is irradiated using ashort wave 254 nm UV lamp at a distance of 2.5 cm from the plate for twoone-minute intervals with a one-minute cooling interval in between. Thereaction is stopped by addition of dithiothreitol to a finalconcentration of 2 mM. The incubations are subjected to SDS-PAGEelectrophoresis, dried, and autoradiographed. Protein bandscorresponding to the particular polypeptides of the invention areexcised, and the radioactivity quantified. A decrease in radioactivitywith increasing ATP or adenly-5′-imidodiphosphate provides a measure ofATP affinity to the polypeptides.

Example 46 Small Molecule Screening

This invention is particularly useful for screening therapeuticcompounds by using the polypeptides of the invention, or bindingfragments thereof, in any of a variety of drug screening techniques. Thepolypeptide or fragment employed in such a test may be affixed to asolid support, expressed on a cell surface, free in solution, or locatedintracellularly. One method of drug screening utilizes eukaryotic orprokaryotic host cells which are stably transformed with recombinantnucleic acids expressing the polypeptide or fragment. Drugs are screenedagainst such transformed cells in competitive binding assays. One maymeasure, for example, the formulation of complexes between the agentbeing tested and polypeptide of the invention.

Thus, the present invention provides methods of screening for drugs orany other agents which affect activities mediated by the polypeptides ofthe invention. These methods comprise contacting such an agent with apolypeptide of the invention or fragment thereof and assaying for thepresence of a complex between the agent and the polypeptide or fragmentthereof, by methods well known in the art. In such a competitive bindingassay, the agents to screen are typically labeled. Following incubation,free agent is separated from that present in bound form, and the amountof free or uncomplexed label is a measure of the ability of a particularagent to bind to the polypeptides of the invention.

Another technique for drug screening provides high throughput screeningfor compounds having suitable binding affinity to the polypeptides ofthe invention, and is described in great detail in European PatentApplication 84/03564, published on Sep. 13, 1984, which is hereinincorporated by reference in its entirety. Briefly stated, large numbersof different small molecule test compounds are synthesized on a solidsubstrate, such as plastic pins or some other surface. The testcompounds are reacted with polypeptides of the invention and washed.Bound polypeptides are then detected by methods well known in the art.Purified polypeptides are coated directly onto plates for use in theaforementioned drug screening techniques. In addition, non-neutralizingantibodies may be used to capture the peptide and immobilize it on thesolid support.

This invention also contemplates the use of competitive drug screeningassays in which neutralizing antibodies capable of binding polypeptidesof the invention specifically compete with a test compound for bindingto the polypeptides or fragments thereof. In this manner, the antibodiesare used to detect the presence of any peptide which shares one or moreantigenic epitopes with a polypeptide of the invention.

Example 47 Phosphorylation Assay

In order to assay for phosphorylation activity of the polypeptides ofthe invention, a phosphorylation assay as described in U.S. Pat. No.5,958,405 (which is herein incorporated by reference) is utilized.Briefly, phosphorylation activity may be measured by phosphorylation ofa protein substrate using gamma-labeled ³²P-ATP and quantitation of theincorporated radioactivity using a gamma radioisotope counter. Thepolypeptides of the invention are incubated with the protein substrate,³²P-ATP, and a kinase buffer. The ³²P incorporated into the substrate isthen separated from free ³²P-ATP by electrophoresis, and theincorporated ³²P is counted and compared to a negative control.Radioactivity counts above the negative control are indicative ofphosphorylation activity of the polypeptides of the invention.

Example 48 Detection of Phosphorylation Activity (Activation) of thePolypeptides of the Invention in the Presence of Polypeptide Ligands

Methods known in the art or described herein may be used to determinethe phosphorylation activity of the polypeptides of the invention. Apreferred method of determining phosphorylation activity is by the useof the tyrosine phosphorylation assay as described in U.S. Pat. No.5,817,471 (incorporated herein by reference).

Example 49 Identification of Signal Transduction Proteins that Interactwith Polypeptides of the Present Invention

The purified polypeptides of the invention are research tools for theidentification, characterization and purification of additional signaltransduction pathway proteins or receptor proteins. Briefly, labeledpolypeptides of the invention are useful as reagents for thepurification of molecules with which it interacts. In one embodiment ofaffinity purification, polypeptides of the invention are covalentlycoupled to a chromatography column. Cell-free extract derived fromputative target cells, such as carcinoma tissues, is passed over thecolumn, and molecules with appropriate affinity bind to the polypeptidesof the invention. The protein complex is recovered from the column,dissociated, and the recovered molecule subjected to N-terminal proteinsequencing. This amino acid sequence is then used to identify thecaptured molecule or to design degenerate oligonucleotide probes forcloning the relevant gene from an appropriate cDNA library.

Example 50 IL-6 Bioassay

To test the proliferative effects of the polypeptides of the invention,the IL-6 Bioassay as described by Marz et al. is utilized (Proc. Natl.Acad. Sci., U.S.A., 95:3251-56 (1998), which is herein incorporated byreference). Briefly, IL-6 dependent B9 murine cells are washed threetimes in IL-6 free medium and plated at a concentration of 5,000 cellsper well in 50 μl, and 50 μl of the IL-6-like polypeptide is added.After 68 hrs. at 37° C., the number of viable cells is measured byadding the tetrazolium salt thiazolyl blue (MTT) and incubating for afurther 4 hrs. at 37° C. B9 cells are lysed by SDS and optical densityis measured at 570 nm. Controls containing IL-6 (positive) and nocytokine (negative) are utilized. Enhanced proliferation in the testsample(s) relative to the negative control is indicative ofproliferative effects mediated by polypeptides of the invention.

Example 51 Assay for Phosphatase Activity

The following assay may be used to assess serine/threonine phosphatase(PTPase) activity of the polypeptides of the invention.

In order to assay for serine/threonine phosphatase (PTPase) activity,assays can be utilized which are widely known to those skilled in theart. For example, the serine/threonine phosphatase (PSPase) activity ismeasured using a PSPase assay kit from New England Biolabs, Inc. Myelinbasic protein (MyBP), a substrate for PSPase, is phosphorylated onserine and threonine residues with cAMP-dependent Protein Kinase in thepresence of [³²P]ATP. Protein serine/threonine phosphatase activity isthen determined by measuring the release of inorganic phosphate from32P-labeled MyBP.

Example 52 Interaction of Serine/Threonine Phosphatases with OtherProteins

The polypeptides of the invention with serine/threonine phosphataseactivity as determined in Example 51 are research tools for theidentification, characterization and purification of additionalinteracting proteins or receptor proteins, or other signal transductionpathway proteins. Briefly, labeled polypeptide(s) of the invention isuseful as a reagent for the purification of molecules with which itinteracts. In one embodiment of affinity purification, polypeptide ofthe invention is covalently coupled to a chromatography column.Cell-free extract derived from putative target cells, such as neural orliver cells, is passed over the column, and molecules with appropriateaffinity bind to the polypeptides of the invention. The polypeptides ofthe invention—complex is recovered from the column, dissociated, and therecovered molecule subjected to N-terminal protein sequencing. Thisamino acid sequence is then used to identify the captured molecule or todesign degenerate oligonucleotide probes for cloning the relevant genefrom an appropriate cDNA library.

Example 53 Assaying for Heparanase Activity

In order to assay for heparanase activity of the polypeptides of theinvention, the heparanase assay described by Vlodavsky et al is utilized(Vlodavsky, I., et al., Nat. Med., 5:793-802 (1999)). Briefly, celllysates, conditioned media or intact cells (1×10⁶ cells per 35-mm dish)are incubated for 18 hrs at 37° C., pH 6.2-6.6, with ³⁵S-labeled ECM orsoluble ECM derived peak I proteoglycans. The incubation medium iscentrifuged and the supernatant is analyzed by gel filtration on aSepharose CL-6B column (0.9×30 cm). Fractions are eluted with PBS andtheir radioactivity is measured. Degradation fragments of heparansulfate side chains are eluted from Sepharose 6B at 0.5<K_(av)<0.8 (peakII). Each experiment is done at least three times. Degradation fragmentscorresponding to “peak II,” as described by Vlodavsky et al., isindicative of the activity of the polypeptides of the invention incleaving heparan sulfate.

Example 54 Immobilization of Biomolecules

This example provides a method for the stabilization of polypeptides ofthe invention in non-host cell lipid bilayer constucts (see, e.g., Bieriet al., Nature Biotech 17:1105-1108 (1999), hereby incorporated byreference in its entirety herein) which can be adapted for the study ofpolypeptides of the invention in the various functional assays describedabove. Briefly, carbohydrate-specific chemistry for biotinylation isused to confine a biotin tag to the extracellular domain of thepolypeptides of the invention, thus allowing uniform orientation uponimmobilization. A 50 uM solution of polypeptides of the invention inwashed membranes is incubated with 20 mM NaIO4 and 1.5 mg/ml (4 mM) BACHor 2 mg/ml (7.5 mM) biotin-hydrazide for 1 hr at room temperature(reaction volume, 150 ul). Then the sample is dialyzed (PierceSlidealizer Cassett, 10 kDa cutoff; Pierce Chemical Co., Rockford Ill.)at 4 C first for 5 h, exchanging the buffer after each hour, and finallyfor 12 h against 500 ml buffer R (0.15 M NaCl, 1 mM MgCl2, 10 mM sodiumphosphate, pH7). Just before addition into a cuvette, the sample isdiluted 1:5 in buffer ROG50 (Buffer R supplemented with 50 mMoctylglucoside).

Example 55 Taqman

Quantitative PCR (QPCR). Total RNA from cells in culture are extractedby Trizol separation as recommended by the supplier (LifeTechnologies).(Total RNA is treated with DNase I (Life-Technologies) to remove anycontaminating genomic DNA before reverse transcription.) Total RNA (50ng) is used in a one-step, 50 ul, RT-QPCR, consisting of Taqman Buffer A(Perkin-Elmer; 50 mM KCl/10 mM Tris, pH 8.3), 5.5 mM MgCl₂, 240 μM eachdNTP, 0.4 units RNase Inhibitor (Promega), 8% glycerol, 0.012% Tween-20,0.05% gelatin, 0.3 uM primers, 0.1 uM probe, 0.025 units Amplitaq Gold(Perkin-Elmer) and 2.5 units Superscript II reverse transcriptase (LifeTechnologies). As a control for genomic contamination, parallelreactions are setup without reverse transcriptase. The relativeabundance of (unknown) and 18S RNAs are assessed by using the AppliedBiosystems Prism 7700 Sequence Detection System (Livak, K. J., Flood, S.J., Marmaro, J., Giusti, W. & Deetz, K. (1995) PCR Methods Appl. 4,357-362). Reactions are carried out at 48° C. for 30 min, 95° C. for 10min, followed by 40 cycles of 95° C. for 15 s, 60° C. for 1 min.Reactions are perfommed in triplicate.

Primers (f & r) and FRET probes sets are designed using Primer ExpressSoftware (Perkin-Elmer). Probes are labeled at the 5′-end with thereporter dye 6-FAM and on the 3′-end with the quencher dye TAMRA(Biosource International, Camarillo, Calif. or Perkin-Elmer).

Example 56 Assays for Metalloproteinase Activity

Metalloproteinases (EC 3.4.24.-) are peptide hydrolases which use metalions, such as Zn²⁺, as the catalytic mechanism. Metalloproteinaseactivity of polypeptides of the present invention can be assayedaccording to the following methods.

Proteolysis of Alpha-2-macroglobulin

To confirm protease activity, purified polypeptides of the invention aremixed with the substrate alpha-2-macroglobulin (0.2 unit/ml; BoehringerMannheim, Germany) in 1× assay buffer (50 mM HEPES, pH 7.5, 0.2 M NaCl,10 mM CaCl₂, 25 μM ZnCl₂ and 0.05% Brij-35) and incubated at 37° C. for1-5 days. Trypsin is used as positive control. Negative controls containonly alpha-2-macroglobulin in assay buffer. The samples are collectedand boiled in SDS-PAGE sample buffer containing 5% 2-mercaptoethanol for5-min, then loaded onto 8% SDS-polyacrylamide gel. After electrophoresisthe proteins are visualized by silver staining. Proteolysis is evidentby the appearance of lower molecular weight bands as compared to thenegative control.

Inhibition of Alpha-2-macroglobulin Proteolysis by Inhibitors ofMetalloproteinases

Known metalloproteinase inhibitors (metal chelators (EDTA, EGTA, ANDHgCl₂), peptide metalloproteinase inhibitors (TIMP-1 and TIMP-2), andcommercial small molecule MMP inhibitors) are used to characterize theproteolytic activity of polypeptides of the invention. The threesynthetic MMP inhibitors used are: MMP inhibitor I, [IC₅₀=1.0 μM againstMMP-1 and MMP-8; IC₅₀=30 μM against MMP-9; IC₅₀=150 μM against MMP-3];MMP-3 (stromelysin-1) inhibitor I [IC₅₀=5 μM against MMP-3], and MMP-3inhibitor II [K_(i)=130 nM against MMP-3]; inhibitors available throughCalbiochem, catalog # 444250, 444218, and 444225, respectively).Briefly, different concentrations of the small molecule MMP inhibitorsare mixed with purified polypeptides of the invention (50 μg/ml) in 22.9μl of 1×HEPES buffer (50 mM HEPES, pH 7.5, 0.2 M NaCl, 10 mM CaCl₂, 25μM ZnCl₂ and 0.05% Brij-35) and incubated at room temperature (24° C.)for 2-hr, then 7.1 μl of substrate alpha-2-macroglobulin (0.2 unit/ml)is added and incubated at 37° C. for 20-hr. The reactions are stopped byadding 4× sample buffer and boiled immediately for 5 minutes. AfterSDS-PAGE, the protein bands are visualized by silver stain.

Synthetic Fluorogenic Peptide Substrates Cleavage Assay

The substrate specificity for polypeptides of the invention withdemonstrated metalloproteinase activity can be determined usingsynthetic fluorogenic peptide substrates (purchased from BACHEMBioscience Inc). Test substrates include, M-1985, M-2225, M-2105,M-2110, and M-2255. The first four are MMP substrates and the last oneis a substrate of tumor necrosis factor-α (TNF-α) converting enzyme(TACE). All the substrates are prepared in 1:1 dimethyl sulfoxide (DMSO)and water. The stock solutions are 50-500 μM. Fluorescent assays areperformed by using a Perkin Elmer LS 50B luminescence spectrometerequipped with a constant temperature water bath. The excitation λ is 328nm and the emission λ is 393 nm. Briefly, the assay is carried out byincubating 176 μl 1×HEPES buffer (0.2 M NaCl, 10 mM CaCl₂, 0.05% Brij-35and 50 mM HEPES, pH 7.5) with 4 μl of substrate solution (50 μM) at 25°C. for 15 minutes, and then adding 20 μl of a purified polypeptide ofthe invention into the assay cuvett. The final concentration ofsubstrate is 1 μM. Initial hydrolysis rates are monitored for 30-min.

Example 57 Characterization of the cDNA Contained in a Deposited Plasmid

The size of the cDNA insert contained in a deposited plasmid may beroutinely determined using techniques known in the art, such as PCRamplification using synthetic primers hybridizable to the 3′ and 5′ endsof the cDNA sequence. For example, two primers of 17-30 nucleotidesderived from each end of the cDNA (i.e., hybridizable to the absolute 5′nucleotide or the 3′ nucleotide end of the sequence of SEQ ID NO:X,respectively) are synthesized and used to amplify the cDNA using thedeposited cDNA plasmid as a template. The polymerase chain reaction iscarried out under routine conditions, for instance, in 25 ul of reactionmixture with 0.5 ug of the above cDNA template. A convenient reactionmixture is 1.5-5 mM MgCl₂, 0.01% (w/v) gelatin, 20 uM each of dATP,dCTP, dGTP, dTTP, 25 pmol of each primer and 0.25 Unit of Taqpolymerase. Thirty five cycles of PCR (denaturation at 94 degree C. for1 min; annealing at 55 degree C. for 1 min; elongation at 72 degree C.for 1 min) are performed with a Perkin-Elmer Cetus automated thermalcycler. The amplified product is analyzed by agarose gelelectrophoresis. The PCR product is verified to be the selected sequenceby subcloning and sequencing the DNA product. It will be clear that theinvention may be practiced otherwise than as particularly described inthe foregoing description and examples. Numerous modifications andvariations of the present invention are possible in light of the aboveteachings and, therefore, are within the scope of the appended claims.

INCORPORATION BY REFERENCE

The entire disclosure of each document cited (including patents, patentapplications, journal articles, abstracts, laboratory manuals, books, orother disclosures) in the Background of the Invention, DetailedDescription, and Examples is hereby incorporated herein by reference. Inaddition, the sequence listing submitted herewith is incorporated hereinby reference in its entirety. The specification and sequence listing ofeach of the following U.S. and PCT applications are herein incorporatedby reference in their entirety (filing dates shown in format“year-month-day” (yyyy-mm-dd)): Application No. 60/278,650 filed on Mar.27, 2001, application Ser. No. 09/950,082 filed on Sep. 12, 2001,application Ser. No. 09/950,083 filed on Sep. 12, 2001, Application No.60/306,171 filed on 19 Jul. 2001, application Ser. No. 09/833,245 filedon Apr. 12, 2001, Application No. PCT/US01/11988 filed on Apr. 12, 2001,Application No. 60/331,287 filed on Nov. 13, 2001, Application No.60/277,340 filed on Mar. 21, 2001, Application No. PCT/US00/06043 filedon Mar. 4, 2000, Application No. PCT/US00/06012 filed on Mar. 9, 2000,Application No. PCT/US00/06058 filed on Mar. 9, 2000, Application No.PCT/US00/06044 filed on Mar. 9, 2000, Application No. PCT/US00/06059filed on Mar. 9, 2000, Application No. PCT/US00/06042 filed on Mar. 9,2000, Application No. PCT/US00/06014 filed on Mar. 9, 2000, ApplicationNo. PCT/US00/06013 filed on Mar. 9, 2000, Application No. PCT/US00/06049filed on Mar. 9, 2000, Application No. PCT/US00/06057 filed on Mar. 9,2000, Application No. PCT/US00/06824 filed on Mar. 16, 2000, ApplicationNo. PCT/US00/06765 filed on Mar. 16, 2000, Application No.PCT/US00/06792 filed on Mar. 16, 2000, Application No. PCT/US00/06830filed on Mar. 16, 2000, Application No. PCT/US00/06782 filed on Mar. 16,2000, Application No. PCT/US00/06822 filed on Mar. 16, 2000, ApplicationNo. PCT/US00/06791 filed on Mar. 16, 2000, Application No.PCT/US00/06828 filed on Mar. 16, 2000, Application No. PCT/US00/06823filed on Mar. 16, 2000, Application No. PCT/US00/06781 filed on Mar. 16,2000, Application No. PCT/US00/07505 filed on Mar. 22, 2000, ApplicationNo. PCT/US00/07440 filed on Mar. 22, 2000, Application No.PCT/US00/07506 filed on Mar. 22, 2000, Application No. PCT/US00/07507filed on Mar. 22, 2000, Application No. PCT/US00/07535 filed on Mar. 22,2000, Application No. PCT/US00/07525 filed on Mar. 22, 2000, ApplicationNo. PCT/US00/07534 filed on Mar. 22, 2000, Application No.PCT/US00/07483 filed on Mar. 22, 2000, Application No. PCT/US00/07526filed on Mar. 22, 2000, Application No. PCT/US00/07527 filed on Mar. 22,2000, Application No. PCT/US00/07661 filed on Mar. , 200023, ApplicationNo. PCT/US00/07579 filed on Mar. , 200023, Application No.PCT/US00/07723 filed on Mar. , 200023, Application No. PCT/US00/07724filed on Mar. , 200023, Application No. PCT/US00/14929 filed on Jun. 1,2000, Application No. PCT/US00/07722 filed on Mar. , 200023, ApplicationNo. PCT/US00/07578 filed on Mar. , 200023, Application No.PCT/US00/07726 filed on Mar. , 200023, Application No. PCT/US00/07677filed on Mar. , 200023, Application No. PCT/US00/07725 filed on Mar. ,200023, Application No. PCT/US00/09070 filed on Apr. 6, 2000,Application No. PCT/US00/08982 filed on Apr. 6, 2000, Application No.PCT/US00/08983 filed on Apr. 6, 2000, Application No. PCT/US00/09067filed on Apr. 6, 2000, Application No. PCT/US00/09066 filed on Apr. 6,2000, Application No. PCT/US00/09068 filed on Apr. 6, 2000, ApplicationNo. PCT/US00/08981 filed on Apr. 6, 2000, Application No. PCT/US00/08980filed on Apr. 6, 2000, Application No. PCT/US00/09071 filed on Apr. 6,2000, Application No. PCT/US00/09069 filed on Apr. 6, 2000, ApplicationNo. PCT/US00/15136 filed on Jun. 1, 2000, Application No. PCT/US00/14926filed on Jun. 1, 2000, Application No. PCT/US00/14963 filed on Jun. 1,2000, Application No. PCT/US00/15135 filed on Jun. 1, 2000, ApplicationNo. PCT/US00/14934 filed on Jun. 1, 2000, Application No. PCT/US00/14933filed on Jun. 1, 2000, Application No. PCT/US00/15137 filed on Jun. 1,2000, Application No. PCT/US00/14928 filed on Jun. 1, 2000, ApplicationNo. PCT/US00/14973 filed on Jun. 1, 2000, Application No. PCT/US00/14964filed on Jun. 1, 2000, Application No. PCT/US00/26376 filed on Sep. 26,2000, Application No. PCT/US00/26371 filed on Sep. 26, 2000, ApplicationNo. PCT/US00/26324 filed on Sep. 26, 2000, Application No.PCT/US00/26323 filed on Sep. 26, 2000, Application No. PCT/US00/26337filed on Sep. 26, 2000, Application No. PCT/US01/13318 filed on Apr. 27,2001, Application No. U.S. 60/124,146 filed on Mar. 12, 1999,Application No. U.S. 60/167,061 filed on Nov. 23, 1999, Application No.U.S. 60/124,093 filed on Mar. 12, 1999, Application No. U.S. 60/166,989filed on Nov. 23, 1999, Application No. U.S. 60/124,145 filed on Mar.12, 1999, Application No. U.S. 60/168,654 filed on Dec. 3, 1999,Application No. U.S. 60/124,099 filed on Mar. 12, 1999, Application No.U.S. 60/168,661 filed on Dec. 3, 1999, Application No. U.S. 60/124,096filed on Mar. 12, 1999, Application No. U.S. 60/168,622 filed on Dec. 3,1999, Application No. U.S. 60/124,143 filed on Mar. 12, 1999,Application No. U.S. 60/168,663 filed on Dec. 3, 1999, Application No.U.S. 60/124,095 filed on Mar. 12, 1999, Application No. U.S. 60/138,598filed on Jun. 11, 1999, Application No. U.S. 60/168,665 filed on Dec. 3,1999, Application No. U.S. 60/125,360 filed on Mar. 19, 1999,Application No. U.S. 60/138,626 filed on Jun. 11, 1999, Application No.U.S. 60/168,662 filed on Dec. 3, 1999, Application No. U.S. 60/124,144filed on Mar. 12, 1999, Application No. U.S. 60/138,574 filed on Jun.11, 1999, Application No. U.S. 60/168,667 filed on Dec. 3, 1999,Application No. U.S. 60/124,142 filed on Mar. 12, 1999, Application No.U.S. 60/138,597 filed on Jun. 11, 1999, Application No. U.S. 60/168,666filed on Dec. 3, 1999, Application No. U.S. 60/125,359 filed on Mar. 19,1999, Application No. U.S. 60/168,664 filed on Dec. 3, 1999, ApplicationNo. U.S. 60/126,051 filed on Mar. 23, 1999, Application No. U.S.60/169,906 filed on Dec. 10, 1999, Application No. U.S. 60/125,362 filedon Mar. 19, 1999, Application No. U.S. 60/169,980 filed on Dec. 10,1999, Application No. U.S. 60/125,361 filed on Mar. 19, 1999,Application No. U.S. 60/169,910 filed on Dec. 10, 1999, Application No.U.S. 60/125,812 filed on Mar. 23, 1999, Application No. U.S. 60/169,936filed on Dec. 10, 1999, Application No. U.S. 60/126,054 filed on Mar.23, 1999, Application No. U.S. 60/169,916 filed on Dec. 10, 1999,Application No. U.S. 60/125,815 filed on Mar. 23, 1999, Application No.U.S. 60/169,946 filed on Dec. 10, 1999, Application No. U.S. 60/125,358filed on Mar. 19, 1999, Application No. U.S. 60/169,616 filed on Dec. 8,1999, Application No. U.S. 60/125,364 filed on Mar. 19, 1999,Application No. U.S. 60/169,623 filed on Dec. 8, 1999, Application No.U.S. 60/125,363 filed on Mar. 19, 1999, Application No. U.S. 60/169,617filed on Dec. 8, 1999, Application No. U.S. 60/126,502 filed on Mar. 26,1999, Application No. U.S. 60/172,410 filed on Dec. 17, 1999,Application No. U.S. 60/126,503 filed on Mar. 26, 1999, Application No.U.S. 60/172,409 filed on Dec. 17, 1999, Application No. U.S. 60/126,505filed on Mar. 26, 1999, Application No. U.S. 60/172,412 filed on Dec.17, 1999, Application No. U.S. 60/126,594 filed on Mar. 26, 1999,Application No. U.S. 60/172,408 filed on Dec. 17, 1999, Application No.U.S. 60/126,511 filed on Mar. 26, 1999, Application No. U.S. 60/172,413filed on Dec. 17, 1999, Application No. U.S. 60/126,595 filed on Mar.26, 1999, Application No. U.S. 60/171,549 filed on Dec. 22, 1999,Application No. U.S. 60/126,598 filed on Mar. 26, 1999, Application No.U.S. 60/171,504 filed on Dec. 22, 1999, Application No. U.S. 60/126,596filed on Mar. 26, 1999, Application No. U.S. 60/171,552 filed on Dec.22, 1999, Application No. U.S. 60/126,600 filed on Mar. 26, 1999,Application No. U.S. 60/171,550 filed on Dec. 22, 1999, Application No.U.S. 60/126,501 filed on Mar. 26, 1999, Application No. U.S. 60/171,551filed on Dec. 22, 1999, Application No. U.S. 60/126,504 filed on Mar.26, 1999, Application No. U.S. 60/174,847 filed on Jan. 7, 2000,Application No. U.S. 60/126,509 filed on Mar. 26, 1999, Application No.U.S. 60/174,853 filed on Jan. 7, 2000, Application No. U.S. 60/126,506filed on Mar. 26, 1999, Application No. U.S. 60/174,852 filed on Jan. 7,2000, Application No. U.S. 60/242,710 filed on Oct. 10, 2000,Application No. U.S. 60/126,510 filed on Mar. 26, 1999, Application No.U.S. 60/174,850 filed on Jan. 7, 2000, Application No. U.S. 60/138,573filed on Jun. 11, 1999, Application No. U.S. 60/174,851 filed on Jan. 7,2000, Application No. U.S. 60/126,508 filed on Mar. 26, 1999,Application No. U.S. 60/174,871 filed on Jan. 7, 2000, Application No.U.S. 60/126,507 filed on Mar. 26, 1999, Application No. U.S. 60/174,872filed on Jan. 7, 2000, Application No. U.S. 60/126,597 filed on Mar. 26,1999, Application No. U.S. 60/174,877 filed on Jan. 7, 2000, ApplicationNo. U.S. 60/126,601 filed on Mar. 26, 1999, Application No. U.S.60/154,373 filed on Sep. 17, 1999, Application No. U.S. 60/176,064 filedon Jan. 14, 2000, Application No. U.S. 60/126,602 filed on Mar. 26,1999, Application No. U.S. 60/176,063 filed on Jan. 14, 2000,Application No. U.S. 60/128,695 filed on Apr. 9, 1999, Application No.U.S. 60/176,052 filed on Jan. 14, 2000, Application No. U.S. 60/128,696filed on Apr. 9, 1999, Application No. U.S. 60/176,069 filed on Jan. 14,2000, Application No. U.S. 60/128,703 filed on Apr. 9, 1999, ApplicationNo. U.S. 60/176,068 filed on Jan. 14, 2000, Application No. U.S.60/128,697 filed on Apr. 9, 1999, Application No. U.S. 60/176,929 filedon Jan. 20, 2000, Application No. U.S. 60/128,698 filed on Apr. 9, 1999,Application No. U.S. 60/176,926 filed on Jan. 20, 2000, Application No.U.S. 60/128,699 filed on Apr. 9, 1999, Application No. U.S. 60/177,050filed on Jan. 20, 2000, Application No. U.S. 60/128,701 filed on Apr. 9,1999, Application No. U.S. 60/177,166 filed on Jan. 20, 2000,Application No. U.S. 60/128,700 filed on Apr. 9, 1999, Application No.U.S. 60/176,930 filed on Jan. 20, 2000, Application No. U.S. 60/128,694filed on Apr. 9, 1999, Application No. U.S. 60/176,931 filed on Jan. 20,2000, Application No. U.S. 60/128,702 filed on Apr. 9, 1999, ApplicationNo. U.S. 60/177,049 filed on Jan. 20, 2000, Application No. U.S.60/138,629 filed on Jun. 11, 1999, Application No. U.S. 60/138,628 filedon Jun. 11, 1999, Application No. U.S. 60/138,631 filed on Jun. 11,1999, Application No. U.S. 60/138,632 filed on Jun. 11, 1999,Application No. U.S. 60/138,599 filed on Jun. 11, 1999, Application No.U.S. 60/138,572 filed on Jun. 11, 1999, Application No. U.S. 60/138,625filed on Jun. 11, 1999, Application No. U.S. 60/138,633 filed on Jun.11, 1999, Application No. U.S. 60/138,630 filed on Jun. 11, 1999,Application No. U.S. 60/138,627 filed on Jun. 11, 1999, Application No.U.S. 60/155,808 filed on Sep. 27, 1999, Application No. U.S. 60/155,804filed on Sep. 27, 1999, Application No. U.S. 60/155,807 filed on Sep.27, 1999, Application No. U.S. 60/155,805 filed on Sep. 27, 1999,Application No. U.S. 60/155,806 filed on Sep. 27, 1999, Application No.U.S. 60/201,194 filed on May 2, 2000, Application No. U.S. 60/212,142filed on Jun. 16, 2000, application Ser. No. 10/105,299 filed on Mar.26, 2002, Application No. PCT/US02/09105 filed Mar. 26, 2002,Application No. PCT/US02/09188 filed Mar. 26, 2002, Application No.PCT/US02/09239 filed Mar. 26, 2002, Application No. PCT/US02/09370 filedMar. 26, 2002, Application No. PCT/US02/09922 filed Mar. 26, 2002,Application No. PCT/US02/09135 filed Mar. 26, 2002, and Application No.PCT/US02/09257 filed Mar. 26, 2002.

LENGTHY TABLE The patent application contains a lengthy table section. Acopy of the table is available in electronic form from the USPTO website(http://seqdata.uspto.gov/?pageRequest=docDetail&DocID=US20070015162A1)An electronic copy of the table will also be available from the USPTOupon request and payment of the fee set forth in 37 CFR 1.19(b)(3).

1. An isolated nucleic acid molecule comprising a first polynucleotidesequence at least 95% identical to a second polynucleotide sequenceselected from the group consisting of: (a) a polynucleotide fragment ofSEQ ID NO:X as referenced in Table 1A; (b) a polynucleotide encoding afull length polypeptide of SEQ ID NO:Y or a full length polypeptideencoded by the cDNA Clone ID in ATCC Deposit No: Z corresponding to SEQID NO:Y as referenced in Table 1A; (c) a polynucleotide encoding apolypeptide fragment of SEQ ID NO:Y or a polypeptide fragment encoded bythe cDNA Clone ID in ATCC Deposit No: Z corresponding to SEQ ID NO:Y asreferenced in Table 1A; (d) a polynucleotide encoding a polypeptidefragment of SEQ ID NO:Y or a polypeptide fragment encoded by the cDNAClone ID in ATCC Deposit No: Z corresponding to SEQ ID NO:Y asreferenced in Table 1A, wherein said fragment has biological activity;(e) a polynucleotide encoding a polypeptide domain of SEQ ID NO:Y asreferenced in Table 1B; (f) a polynucleotide encoding a polypeptidedomain of SEQ ID NO:Y as referenced in Table 2; (g) a polynucleotideencoding a predicted epitope of SEQ ID NO:Y as referenced in Table 1B;and (h) a polynucleotide capable of hybridizing under stringentconditions to any one of the polynucleotides specified in (a)-(g),wherein said polynucleotide does not hybridize under stringentconditions to a nucleic acid molecule having a nucleotide sequence ofonly A residues or of only T residues.
 2. The isolated nucleic acidmolecule of claim 1, wherein the polynucleotide fragment comprises anucleotide sequence encoding a secreted form of SEQ ID NO:Y or asecreted form of the polypeptide encoded by the cDNA Clone ID in ATCCDeposit No: Z corresponding to SEQ ID NO:Y, as referenced in Table 1A.3. The isolated nucleic acid molecule of claim 1, wherein thepolynucleotide fragment comprises a nucleotide sequence encoding thesequence identified as SEQ ID NO:Y or the polypeptide encoded by thecDNA sequence included in ATCC Deposit No: Z, which is hybridizable toSEQ ID NO:X, as referenced in Table 1A.
 4. The isolated nucleic acidmolecule of claim 1, wherein the polynucleotide fragment comprises theentire nucleotide sequence of SEQ ID NO:X or the cDNA sequence includedin ATCC Deposit No: Z, which is hybridizable to SEQ ID NO:X, asreferenced in Table 1A.
 5. The isolated nucleic acid molecule of claim2, wherein the nucleotide sequence comprises sequential nucleotidedeletions from either the C-terminus or the N-terminus.
 6. The isolatednucleic acid molecule of claim 3, wherein the nucleotide sequencecomprises sequential nucleotide deletions from either the C-terminus orthe N-terminus.
 7. A recombinant vector comprising the isolated nucleicacid molecule of claim
 1. 8. A method of making a recombinant host cellcomprising the isolated nucleic acid molecule of claim
 1. 9. Arecombinant host cell produced by the method of claim
 8. 10. Therecombinant host cell of claim 9 comprising vector sequences.
 11. Apolypeptide comprising a first amino acid sequence at least 95%identical to a second amino acid sequence selected from the groupconsisting of: (a) a full length polypeptide of SEQ ID NO:Y or a fulllength polypeptide encoded by the cDNA Clone ID in ATCC Deposit No: Zcorresponding to SEQ ID NO:Y as referenced in Table 1A; (b) a secretedform of SEQ ID NO:Y or a secreted form of the polypeptide encoded by thecDNA Clone ID in ATCC Deposit No: Z corresponding to SEQ ID NO:Y asreferenced in Table 1A; (c) a polypeptide fragment of SEQ ID NO:Y or apolypeptide fragment encoded by the cDNA Clone ID in ATCC Deposit No: Zcorresponding to SEQ ID NO:Y as referenced in Table 1A; (d) apolypeptide fragment of SEQ ID NO:Y or a polypeptide fragment encoded bythe cDNA Clone ID in ATCC Deposit No: Z corresponding to SEQ ID NO:Y asreferenced in Table 1A, wherein said fragment has biological activity;(e) a polypeptide domain of SEQ ID NO:Y as referenced in Table 1B; (f) apolypeptide domain of SEQ ID NO:Y as referenced in Table 2; and (g) apredicted epitope of SEQ ID NO:Y as referenced in Table 1B.
 12. Thepolypeptide of claim 11, wherein said polypeptide comprises aheterologous amino acid sequence.
 13. The isolated polypeptide of claim11, wherein the secreted form or the full length protein comprisessequential amino acid deletions from either the C-terminus or theN-terminus.
 14. An isolated antibody that binds specifically to theisolated polypeptide of claim
 11. 15. A recombinant host cell thatexpresses the isolated polypeptide of claim
 11. 16. A method of makingan isolated polypeptide comprising: (a) culturing the recombinant hostcell of claim 15 under conditions such that said polypeptide isexpressed; and (b) recovering said polypeptide.
 17. The polypeptideproduced by claim
 16. 18. A method for preventing, treating, orameliorating allergic or asthmatic disorders, comprising administeringto a mammalian subject a therapeutically effective amount of thepolypeptide of claim
 11. 19. A method of diagnosing allergic orasthmatic disorders in a subject comprising: (a) determining thepresence or absence of a mutation in the polynucleotide of claim 11; and(b) diagnosing the allergic or asthmatic disorders based on the presenceor absence of said mutation.
 20. A method of diagnosing allergic orasthmatic disorders in a subject comprising: (a) determining thepresence or amount of expression of the polypeptide of claim 11 in abiological sample; and (b) diagnosing the allergic or asthmaticdisorders based on the presence or amount of expression of thepolypeptide.
 21. A method for identifying a binding partner to thepolypeptide of claim 11 comprising: (a) contacting the polypeptide ofclaim 43 with a binding partner; and (b) determining whether the bindingpartner effects an activity of the polypeptide.
 22. The genecorresponding to the cDNA sequence of SEQ ID NO:X.
 23. A method ofidentifying an activity in a biological assay, wherein the methodcomprises: (a) expressing SEQ ID NO:X in a cell; (b) isolating thesupernatant; (c) detecting an activity in a biological assay; and (d)identifying the protein in the supernatant having the activity.
 24. Theproduct produced by the method of claim 20.